Eui-Hyeok Yang

Current Research: Advanced Quantum Materials and Sensing Explore 2D dilute magnetic semiconductors via an in situ substitutional doping of metal atoms into the transition metal lattice sites in TMD monolayers, probe ferromagnetism at room temperature, and study electron transport in 2D materials for ultrasensitive detection. This new class of materials finds critical applications, including on-chip magnetic field sources, spintronic memories, spin photovoltaics, and spin thermoelectric.

Previous Research: MEMS Technologies for Adaptive Optics Led the development of MEMS-based adaptive optics for ultra-large space telescopes at NASA/JPL. These projects were funded by NASA, JPL, the National Reconnaissance Office (NRO), and other industrial partners.

Editor-in-Chief, Synthesis, Modeling and Characterization of Two-Dimensional Materials and Their Heterostructures, Micro and Nano Technologies, Elsevier, 2020
Editorial Board Member
Nature Scientific Reports (2016-current)
Elsevier NANOSO (2017-2019)
Distinguished Lecturer, IEEE Sensors Council (2023-2025)
Associate Editor
IEEE Sensors Journal (2008-current)
Micromachines (2019-current)
ASME Journal of Electrochemical Energy Conversion and Storage (2018-2021)
Nanoscience and Nanotechnology Letters (2010-2016)
National Academy of Inventors (NAI) Fellows Advisory Committee, National Academy of Inventors (2019-2022)
Lead Guest Editor, NANOSO, Special Issue on 1D and 2D Materials – Modeling, Fabrication and Characterization, published in Dec 2017
Guest Editor, Nanoscience and Nanotechnology Letters, Special Issue on Nanoscale Materials, Structures and Devices for Sensors and Systems Applications, published in July 2010
Division Chair, ASME MEMS Division 2012-2013
Division Vice-Chair, ASME MEMS Division 2011-2012
Member of Executive Committee, ASME MEMS Division 2009-2014
Committee Chair, Program and Editorial Committee, ASME MEMS Division, 2009, 2010, 2011
Standing Member, Executive Committee, ASME MEMS Division 2009, 2010
Track Chair, Micro and Nano Systems Track, ASME International Mechanical Engineering Congress and Exposition (IMECE) 2009, 2010, 2011 (Nano and Micro Systems at the ASME International Mechanical Engineering Congress and Exposition consists of approximately 50 sessions and over 250 presentations related to advances in Nano and Micro Systems.)
Track Co-Chair, Micro and Nano Systems Track in IMECE 2012
Track Co-Chair; Nanoengineering for Biology and Medicine Track in IMECE 2011
Committee Member, ASME Society-Wide Micro/Nano Technology Forum, 2008-2012
Technical Program Committee
SPIE Defense and Security Symposium (MEMS and Nanotechnology), Orlando, Florida, USA, March 2008-2011
IEEE Sensors Conference, Atlanta, Georgia, USA, Oct. 2007; Daegu, Korea, Oct. 2006; Irvine, CA, Oct. 2005; Vienna, Austria, Oct. 2004
SPIE MEMS/MOEMS Components and Their Applications Conference, San Jose, California, USA, January 2003-2005
Workshop/Symposia Organizer
Metro Area MEMS/NEMS workshop, July 2010
Micro and Nano Devices Symposium, Miniaturization for Space, ASME International Mechanical Engineering Congress and Exposition, Vancouver, Canada, Nov. 2010
Micro and Nano Devices Symposium, ASME International Mechanical Engineering Congress and Exposition, Orlando, FL Nov. 2006-2009
Metro Area MEMS/NEMS workshop, July 2007
Co-Organizer, Micro and Nano Devices Topic, MEMS Division, ASME International Mechanical Engineering Congress and Exposition, Orlando, FL, Nov. 2005
Session Chair and Organizer
SPIE Defense and Security Symposium (MEMS and Nanotechnology), Orlando, Florida, USA, March 2007-2011
ASME International Mechanical Engineering Congress and Exposition, Orlando, FL, Nov. 2009; Boston, MA, Nov. 2008; Seattle, Washington, Nov. 2007; Chicago, IL, Nov. 2006; Orlando, FL, Nov. 2005
IEEE Sensors Conference, Daegu, Korea, Oct. 2006; Irvine, CA, Oct. 2005
SPIE MEMS/MOEMS Components and Their Applications Conference, San Jose, California, USA, Jan. 2004-2005
Advisory Board, Lab-on-a-Chip & Microarray World Congress

Reviewer
Journals (Alphabetical order) - ACS NANO, Accounts of Chemical Research, ACS Applied Materials and Interfaces, ACS Photonics, Advanced Materials, Advanced Functional Materials, Analytical Chemistry, Analyst, Applied Physics Letters, ASME Journal of Dynamic Systems, Measurement and Control, BioNanoScience, Carbon, Chemistry of Materials, Electroanalysis, IEEE Sensors Journal, IEEE/ASME Journal of Microelectromechanical Systems, IEEE/ASME Transactions on Mechatronics, IEEE EDS Electron Device Letters, IEEE Trans. Control Systems Technology, IEEE Trans. Electron Devices, IEEE Trans. Nanotechnology, International Journal of Optomechatronics, JACS, Journal of Abrasive Technology, Journal of Applied Physics, Journal of Colloidal and Interfacial Science, Journal of Composite Materials, Journal of Intelligent Material Systems and Structures, Journal of Material Science, Journal of Materials Chemistry C, Journal of Magnetism and Magnetic Materials,Journal of Mechanical Science and Technology, Journal of Micromechanics and Microengineering, Journal of Micro/Nanolithography, MEMS, and MOEMS (JM3), Journal of Nanoengineering and Nanosystems, Journal of Optics A: Pure and Applied Optics, Journal of Physics: Condensed Matter, Journal of Physics D: Applied Physics, Journal of Physical Chemistry, Journal of Sensors and Materials, Journal of Thermal Engineering,The Journal of the Electrochemical Society, Journal of the American Chemical Society, Lab Chip, Langmuir, Materials, Material Express, Materials Today, Materials, Chemistry and Physics, Measurement Science and Technology, Micro and Nano Systems Letters, Microelectronic Engineering, Microfluidics and Nanofluidics, Micromachines,Micromechatronics, Nano Research, Nanoscale, Nanoscale Research Letters, Nanoscience and Nanotechnology Letters, Nanotechnology, Nature Communication, Optics Communications, Physical Chemistry Chemical Physics, Polymer Chemistry, RSC Advances, Science Advances, Scientific Reports, Sensors, Sensors and Actuators A, Sensors and Actuators B, Sensors and Materials, Small, Smart Mater. Struct., Thin Solid Films, 2D Materials
Proposals - NSF DMR EPM, Israeli Ministry of Science, Technology and Space, Memorial Sloan Kettering Cancer Center, NSF DMR, February ACS Petroleum Research Fund, NSF CAREER, NSF EPSCoR, DOE EPSCoR, NTU of the Tier 1 Grant, NSF SBIR Panel, NSF Nanomanufacturing Panel, NSF Scalable Nanomanufacturing Panel, NSF Major Research Instruments Panel, NSF International Research Experience for Students (IRES) Program, Army Research Office, National Project Competition in Antarctic Science (Chile), NSF CAREER Panel, Micro and Nano Systems (IHCS), Center for Functional Nanomaterials, NSF CAREER Panel, Chemical and Biological Separations, Cooperative Grants Program (CGP)-A of the U.S. Civilian Research and Development Foundation (CRDF), NASA SBIR Phase I and II, JPL Research and Technology Development, Ireland Science Foundation

Named a Fellow of the American Society of Mechanical Engineers
Named an NAI Fellow of the National Academy of Inventors
Invited to the NAI Fellows Advisory Committee
Received several awards, including the Technical Achievement Award for Advanced Career from the IEEE Sensors Council, the Lew Allen Award for Excellence at NASA Jet Propulsion Laboratory, and the Jess H. Davis Memorial Award for Research Excellence at Stevens Institute of Technology.
Appointed as a Distinguished Lecturer of the IEEE Sensors Council
Appointed as an Associate Editor or an Editorial Board Member of major journals, including Nature Scientific Reports, IEEE Sensors Journal, and ASME JEECS.
Led several joint proposal efforts, which resulted in securing several federal grants and contracts, including 6 NSF grants, 3 AFOSR grants, 3 National Reconnaissance Office contracts, 7 US Army contracts, and 5 NASA contracts totaling ~$10M.
Published over three hundred journal papers, refereed conference papers, and presentations.
Honored with a hundred keynote/invited talks at conferences, workshops, and university seminars, and 17 US Patents issued or pending.
Served Institute Promotion and Tenure Committee and 5 faculty search committees for tenure-track professors, endowed chairs, and department chairs.
Reviewed MEMS mirror array technologies developed for NASA’s Multi-Object Spectrometer project for the James Webb Space Telescope.
Developed and led the MEMS-based actuator thrust supported by National Reconnaissance Office, NASA Code R Enabling Technology Program, and DARPA to develop MEMS deformable mirrors, microvalves, and microactuators.

NASA Goddard Space Flight Center

Professor, Mechanical Eng., Stevens Inst. Technology 2014 – Current
Distinguished Lecturer, IEEE Sensors Council (2023-2025)
Fellow, American Society of Mechanical Engineers (2019)
Fellow, National Academy of Inventors (2018)
NAI Fellows Advisory Committee, National Academy of Inventors 2019 – Current
Associate Editor, Micromachines 2019 – Current
Editorial Board Member, Nature Scientific Reports 2016 – Current
Associate Editor, ASME JEECS 2018 –2020
Editorial Board Member, Elsevier NANOSO 2017 – 2019
Visiting Professor, Electrical Eng., Columbia University 2014
Associate Professor, Mechanical Eng., Stevens Inst. Technology 2006 – 2013
Associate Editor, IEEE Sensors Journal 2008 – Current
Associate Editor, Nanosci. Nanotech. Lett. 2010 – 2016
Division Chair, ASME MEMS Division 2013 – 2014
Director, Micro Device Laboratory, Stevens Inst. Technology 2008 – 2020
Senior Member of Eng. Staff, NASA Jet Propulsion Laboratory 2003 – 2006
Member of Engineering Staff, NASA Jet Propulsion Laboratory 2000 – 2002
Research Advisor, National Research Council 2002 – 2006
Technical Monitor (NASA SBIR), NASA Jet Propulsion Laboratory 2001 – 2006
Task Manager, NASA Jet Propulsion Laboratory 2001 – 2006

Dr. Yang holds 18 US patents in the field of micro- and nano-technology issued or pending. His most significant patents are US 9,738,526, US 9,640,391, US 9,573,814 and US 8,878,120. These patents concern novel energy harvesting and energy storage, as well as detector applications, which have numerous civilian, military, and scientific uses. For example, a new type of energy storage based on supercapacitors has an enormous impact on energy harvesting. Dr. Yang also has patent disclosures pending related to microfluidic manipulation for waste management and potential medical applications.

Master of Engineering, Honoris Causa (2023), Stevens Inst. Technology
Distinguished Lecturer of the IEEE Sensors Council (2023-2025)
National Academy of Inventors (NAI) Fellows Advisory Committee (2019-2022)
IEEE Sensors Council Technical Achievement Award Selection Committee (2021)
IEEE Sensors Council Technical Achievement Award (2020)
For outstanding contributions and leadership in the field of nanotechnology-based sensors, for his high-impact research, and for his commitment to shaping the scientists, engineers, and educators of tomorrow
Fellow of the American Society of Mechanical Engineers (2019)
Recognized for significant contributions in multi-disciplinary research areas through his research and entrepreneurial activities
NAI Fellow of the National Academy of Inventors (2018)
Recognized for demonstrating a highly prolific spirit of innovation in creating or facilitating outstanding inventions that have made a tangible impact on the quality of life, economic development, and welfare of society.
Jess H. Davis Memorial Award for Research Excellence (2018), Stevens Inst. Technology
Recognized for excellence in leading 2D materials research based on the paper published as the Cover Article in Advanced Materials
Outstanding Reviewer Award (2016), Nanotechnology
Recognized for the high quality and timeliness of reviews
Decadal Leadership Recognition (2014), ASME MEMS Division
Recognized for his excellence in leading the division in efforts to foster collaboration and maintain a high level of creativity in the field
NASA ICB Space Act Award (2005), NASA JPL
Recognized for developing piezoelectric microvalves for high-pressure applications
Lew Allen Award for Excellence (2004), NASA JPL
Recognized for his excellence in advancing the use of Micro Electro Mechanical Systems–based actuators for space applications. Developed several significant areas of research in MEMS-based actuators for space applications, utilizing MEMS actuators for the development of high-pressure, low leak-rate microvalves, continuous membrane deformable mirrors and inchworm devices for segmented mirror assembly and control for large aperture, space-based telescopes
Level C Award (2003), NASA JPL
Recognized for technical accomplishments on 1) demonstrating a piezoelectric microvalve, 2) leading the design of the MEMS inchworm actuator, 3) leading two postdoctoral researchers and one technical staff
NASA ICB Space Act Award (2003), NASA JPL
Recognized for developing a wafer-level membrane transfer technique
Level B Bonus Award (2001), NASA JPL
Recognized for technical accomplishments in developing MEMS-based deformable mirror technology using thin-film PZT actuators and electrostatic actuators
Class 1 NASA Tech Brief Awards (2001-2008), NASA JPL
Recognized for inventions on several microactuator-based components for space applications (28 awards).
JSPS Postdoctoral Fellowship (1996-1998), Japan Society for the Promotion of Science (The University of Tokyo, Japan)
Summa Cum Laude Honor (1990), Ajou University, Korea

Total: ~ $11M (PI)

Currently, active projects denoted by *

*US Army- DEVCOM, Graphene Rings for Atomically Thin Matter-Wave Interferometer, PI, HQ003419D0003; DO HQ003421F0515 (2021~ 2026)
*US Army- DEVCOM: Advanced Materials for Quantum Sensing (under Quantum Technologies for Armament Systems), Co-PI, under #: W15QKN18D0040; DOW15QKN21F0272 (2021~ 2023)
US Army, Material Development and Nanofabrication of Graphene Structures, PI (2020-2021)
US Army, Sensor Development for Precision Munitions, PI (2019-2020)
NSF, I-Corps™: Flexible and Stretchy Electronic Skin Sensor, PI (2019-2020) (IIP-1933645)
SPRINT/Quantum Seedling Grant, Integration of 2D Crystals toward Photonic Computing (2019)
ACS PRF, Rejuvenating Conjugated Polymer Membranes for Oily Water Treatment: PI, (with Choi) (2016~2019) (PRF# 56455-ND5)
NSF, MRI: Acquisition of Cryogen-free Low-temperature Scanning-probe Spectroscopy System for Nanophotonic and Nanoelectronic Device Characterization, co-PI (PI: Strauf) (2015~2017) (ECCS-1531237)
AFOSR: Wavelength-Tunable IR Detector based on Suspended Bilayer Graphene Micro Ribbons: PI, (with Strauf) (2012~2015) (FA9550-12-1-0326)
NSF, Tunable Wetting on Smart Polymers for Ultra-Low Voltage Digital Microfluidics, PI, (with Choi) (2012~2015) (ECCS-1202269)
NSF, Bandgap-Tunable Graphene Nanoribbons for High Speed, Ultra-Wide-Band Photodetectors, PI (with Strauf), (2011~2015) (ECCS-1104870)
NSF, NUE: Nanotechnology EXposure for Undergraduate Students (NUE-NEXUS), PI (with Fisher, Choi, Besser, and Sheppard), (2011~2015) (EEC-1138244)
AFOSR, DURIP: Instrumentation for Atomic Lattice Imaging of Graphitic Materials for Advanced Nanoelectronics and Nanosensing Systems, PI (2011~2013) (FA9550-11-1-0272)
NSF, MRI: Acquisition of a Nanoimprint Lithography System for Nanoscience Research and Education based on Low-Dimensional Materials, PI (with Choi, Strauf, Cappelleri ‘and Besser), (2011~2012) (ECCS-1040007)
NASA GSFC IRAD, Ultra-Low Leak Rate Piezoelectrically Actuated Microvalves for Controlled Sampling by Mass Spectrometers Stevens PI, (PI: Manuel Balvin, NASA Goddard Space Flight Center)(2010~2011)
NASA GSFC IRAD, Graphene as Transparent Conductive Electrodes for High-Density Focal Plane Assemblies Stevens PI, (PI: Mary Li, NASA Goddard Space Flight Center)(2010~2011)
US Army ARDEC, Carbon-based Electron Wave Interferometer for Chip-Scale Gyroscopes for Guided, Gun Launched Munitions and Missiles, PI (with Strauf and Search) (2009~2011) (W15QKN-05-D-0011)
US Army ARDEC, MicroSystems for Energy Harvesting, Co-PI (PI: Manoochehri) (2010~2011).
NSF, MRI: Acquisition of an Inductively Coupled Plasma (ICP) Etching System for Nano/Micro Device Fabrication: Co-PI (PI: Yong Shi) (2008~2010) (ECCS-0821606)
NASA SBIR Phase II, Micromachined Piezoelectric Multi-layer Actuators for Cryogenic Adaptive Optics: Stevens PI, (PI: Xiaoning Jiang, TRS Technologies) (2009~2011)
AFOSR, Ultra-High-Speed Single-Electron Memory Devices based on Carbon Nanotube Quantum Dots: PI, (2008~2011) (FA9550-08-1-0134)
NASA SBIR Phase I, Micromachined Piezoelectric Multi-layer Actuators for Cryogenic Adaptive Optics: Stevens PI, (PI: Xiaoning Jiang, TRS Technologies) (2008~2008) (NASA Contract No. NNX09CA83C)
DARPA TTO, Large Aperture Space Surveillance (Optical) (LASSO) Phase I, BAA04-36: In-space Optics Manufacturing and Precision Deployment for Large Aperture Space Surveillance, Co-PI (PI: John Hong) (2005)
JPL Spontaneous Concepts, Director's Research and Development Fund: Piezoelectric Nanowire Resonator Sensor Arrays for Biochemical Detection, PI (2005~2006)
JPL Research and Technology Development, Cryogenic, Large-Travel, Latching-Type Microactuator for Re-Configurable, Ultra-Large, Ultra-Lightweight Space Telescopes, PI (2004~2006)
National Reconnaissance Office, Director’s Innovation Initiatives, Title: Miniaturized, Lightweight, Latching-Type Inchworm Actuator for Active Shape Correction of Ultra-Large Space Telescope Mirrors, PI (2004~2005)
NASA NRA, Astrobiology Science, and Technology Instrument Development, Bio/Nano Technology Program: Ultra-small Force-Detected Nuclear Magnetic Resonance Spectrometer system for Biological/Astrobiological Investigations, Co-PI (PI: Thomas George) (2004)
Physical Optics Corporation, Fabrication of Membrane Arrays for Differencing Electrostatic Optical Sensors, PI (2004~2005)
JPL Spontaneous Concepts, Research and Technology Development: Inchworm Actuator for Future Ultra-Large Space Telescopes, PI (2004~2004)
National Reconnaissance Office, Title: Vertical Inchworm Microactuator, PI (2003~2004)
NASA Code R Enabling Concepts and Technologies, Integrated Piezoelectric MEMS Microvalve for LCAM, PI (2003~2004)
National Reconnaissance Office, Director’s Innovation Initiatives: Deployment and Shape Control for Configurable Large Aperture Telescopes, PI (2003~2004)
JPL Spontaneous Concepts, Director's Research and Development Fund: Wireless IOP sensor, Co-PI (PI: Wolfgang Fink) (2003~2004)
Caltech President Funding, Wireless IOP sensor, Co-PI (PI: Wolfgang Fink) (2003~2004)
IOCC, Assessment and Preliminary Design of MEMS-actuated Optical Waveguide Device, PI (2003)
JPL Director's Research and Development Fund, Large-Stroke, Large-Area, Continuous Membrane MEMS Deformable Mirror for Ultra-Large, Ultra-Lightweight Telescopes, PI (2002~2005)
NASA Code R Enabling Concepts and Technologies, Integrated Piezoelectric MEMS Microvalve for Microspacecraft Test Bed, PI (2002~2003)
JPL Director's Research and Development Fund, Membrane Transfer Technology for Continuous Membrane Deformable Mirrors, PI (2001~2002)
NSF Center for Adaptive Optics, Development of the Fabrication Process for Deformable Mirrors, PI (2001~2002)
NASA Gossamer Space Telescope Technology NRA, Advanced Segmented Silicon Space Telescope, Co-PI (PI: Richard Dekany) (2001~2002)
Xinetics, Mirror Wafer Transfer Process, PI (2001~2002)
NASA Cross Enterprise Technology Development Program, MEMS Microvalve for Space Applications, PI (2000~2002)
NASA Cross Enterprise Technology Development Program, Thin-film PZT Microactuators, PI (2000~2002)

17. J. Xu, W. Xu, B. Englot, C.-H. Choi, R. Besser and E. H. Yang, “in situ Oil Cleanup and Recovery Using Smart Polymer Integrated Surface Vessels,” US Patent App (published as US2021/0331776-A1, June 9, 2022)
16. R. Zhang, J. Ding and E. H. Yang, “Stretchable Supercapacitors with Vertically-Aligned Embedded Carbon Nanotubes,” International Patent App. WO 2018/204551 Al
15. S. Fu, K. Kang and E. H. Yang, “Two-Dimensional Spin-Transfer Torque Magnetoresistive Random-Access Memory based on Two-Dimensional Dilute Magnetic Semiconductors,” International Patent App. PCT/US2021/036034
14. S. Fu, K. Kang and E. H. Yang, “in situ Doping of Metal Atoms into TMDs - 2D Dilute Magnetic Semiconductors at Room Temperature,” International Patent App. PCT/US2021/036034
13. R. Zhang and E. H. Yang, “VACNT-based Flexible Electronics for Sensing and Capacitance Applications” US Patent App. US2020/0001587 A1
12. X. Wang, K. Kang, S. Chen, G. Hader, and E. H. Yang, “Location-Specific Growth and Transfer of Single-Crystalline TMD Monolayer Arrays,” US 10,889,914 U.S. Patent
11. Y. Kim, K. Kumar, and F. Fisher, and E. H. Yang, “Popcorn-like Growth of Graphene-Carbon Nanotubes Multi-stack Hybrid for Energy Storage Applications,” US 9,738,526 U.S. Patent
10. K. Kang and E. H. Yang, “Direct and Pre-patterned Synthesis of 2 Dimensional Heterostructures,” US 9,640,391 U.S. Patent
9. V. Patil, Y. Kim, K. Kumar, and E. H. Yang, “High-Throughput Graphene Printing and Selective Transfer Using a Localized Laser Heating Technique,” US 9,573,814 US Patent
8. V. Patil, S. Strauf, and E. H. Yang, “Active Bandgap Tuning of Materials for Tunable Photodetection Applications,” US 8,878,120 US Patent
7. E. H. Yang, “A PZT Unimorph based, High Stroke MEMS Deformable Mirror with Continuous Membrane and Methods of Making the Same,” US 7,336,412 US Patent
6. E. H. Yang, “Wafer Level Transfer of Membranes with Gas-Phase Etching and Wet Etching Methods,” US 7,268,081 US Patent
5. W. Fink, E. H. Yang, C. Lee, M. Humayun, and G. Y. Fujii, “Optically Powered and Optically Data-Transmitting Wireless Intraocular Pressure Sensor Device,” US 7,131,945 US Patent
4. E. H. Yang and D. Wiberg, “A Wafer-Level Transfer of Membranes in Semiconductor Processing,” US 6,777,312 US Patent
3. Y. -T. Tsai, C.-H. Choi, and E. H. Yang, “Marangoni Stress-Driven Droplet Manipulation on Smart Polymers for Ultra-Low Voltage Digital Microfluidics," Patent application number: 13/434082
2. K. Kumar and E. H. Yang, “A High-throughput Local Oxidation Patterning Process,” Patent application number: 12/732518
1. C. P. Search, S. Strauf, and E. H. Yang, “Phase Coherent Solid-State Electron Gyroscope Array,” Patent application number: 12/908419

Book
1. E. H. Yang (Editor-in-Chief), J. Ding, G. Hader and D. Datta, “Synthesis, Modeling and Characterization of Two-Dimensional Materials and Their Heterostructures,” Micro and Nano Technologies, Elsevier, June 2020, 1^st Edition

Book Chapters
7. K. Kang, S. Chen, S. Fu and E. H. Yang, “Synthesis of Transition Metal Dichalcogenides,” Nanostructure Materials and Devices: Properties, Synthesis, Characterization, Modelling and Applications, Springer, 2022.
6. A. Palumbo and E. H. Yang, “Current trends on flexible and wearable sensors based on conjugated polymers combined with nanomaterials,” Conjugated Polymers for Next Generation of Photovoltaics, Energy Storage and Electronics - Vol 1, Elsevier, 2022.
5. K. Kang, S. Chen and E. H. Yang, “Synthesis of Transition Metal Dichalcogenides,” Synthesis, Modelling and Characterization of 2D Materials and Their Heterostructures – Micro and Nano Technologies, Elsevier, 2020
4. R. Zhang, A. Palumbo, J. Xu, and E. H. Yang, “Flexible Supercapacitors with Vertically Aligned Carbon Nanotubes,” Nanoengineering, Quantum Sciences and Nanotechnologies, Francis and Taylor / CRC Press, 2019
3. R. Zhang and E. H. Yang, “Flexible Supercapacitors Consisting of Vertically Aligned Carbon Nanotubes on PDMS,” Dekker Encyclopedia of Nanoscience and Nanotechnology, 3^rd Edition, Francis and Taylor / CRC Press, 2019
2. M. Wang and E. H. Yang, “Terahertz Applications of Graphene,” Handbook of Graphene, vol. 8: Technology and Innovations, John Wiley & Sons, 341, 2019
1. O. Jeong and E. H. Yang, “Thermopneumatic Valve,” In: Li D. (Ed.) Encyclopedia of Microfluidics and Nanofluidics, Springer-Verlag Berlin Heidelberg, 2008

Journals
105. N. Liu, S. Fu, Y. Ma, L. Xiao, S. Liu, S. Chen, J. Hone, E. H. Yang, and S. Strauf, “Chiral Single Photons from Deterministic Quantum Emitter Arrays via Proximity Coupling to van der Waals Ferromagnets,” in review
104. A. Palumbo, H. Wang, K. Levon, and E. H. Yang, “A Stretchable Glucose Sensor via Conductive Polymer-coated VACNT Forests Rooted in Elastomer Polymer Substrate,” IEEE J-Flex, in review
103. M. Fang and E. H. Yang, “Advances in 2D Magnetic Semiconductors via Substitutional Doping of Transition Metal Dichalcogenides: Perspective,” Special Issue, MDPI Materials, MDPI Special Issue, Materials, 16(10), 3701, (2023) Invited Review Article
102. M. Fang and E. H. Yang, “2D Magnetic Semiconductors via Substitutional Doping of Transition Metal Dichalcogenides,” arXiv preprint arXiv:2303.11173
101. A. Palumbo, Z. Li, and E. H. Yang, “Trends on Carbon Nanotube-Based Flexible Sensors via Electrochemical and Mechanical Stimuli,” IEEE Sensors Journal, 22(21), 20101 (2022)
100. O. Sul, H. Seo, E. Choi, S. Kim, J. Gong, J. Bang, H. Ju, S. Oh, G. Lee, Y. Lee, Y.-D. Kim, J.-H. Kim, K. Kang, B.-D. Choi, J. Hong, E. H. Yang, Y. Chung and S.-B. Lee, “An Ultralow Power Mixed Dimensional Heterojunction Transistor Based on the Charge Plasma pn Junction,” Small, 2202153 (2022)
99. M. A. Aly, M. Shah, L. M. Schneider, M. Koch, K. Kang, E. H. Yang, and A. Rahimi-Iman, “Radiative Pattern of Intralayer and Interlayer Excitons in Two-Dimensional WS2/WSe2 Heterostructures,” Scientific Reports, 12, 6939 (2022)
98. S. He, D. Wu, S. Chen, K. Liu, E. H. Yang, and Henry Du, “Au-on-Ag Nanostructure for in-situ SERS Monitoring of Catalytic Reactions,” Nanotechnology, 33, 155701 (2022)
97. X. Hua, T. Axenie, M. N. Goldaraz, K. Kang, E. H. Yang, K. Watanabe, T. Taniguchi, J. Hone, B. Kim, and I. P. Herman1, “Improving the optical quality of MoSe2 and WS2 monolayers with complete h-BN encapsulation by high-temperature annealing,” ACS Appl. Mater. Interfaces, 4(1), 2255 (2022)
96. M. A. Aly, M. Shah, L. M. Schneider, M. Koch, K. Kang, E. H. Yang, and A. Rahimi-Iman, “Radiative Pattern of Intralayer and Interlayer Excitons in Two-Dimensional WS2/WSe2 Heterostructures,” arXiv preprint arXiv:2111.06621 (2021)
95. X. Hua, D. Zhang, B. Kim, D. Seo, K. Kang, E. H. Yang, J. Hu, X. Chen, H. Liang, K. Watanabe, T. Taniguchi, J. Hone, Y. D. Kim, and I. P. Herman, “Stabilization of CVD-grown WS₂ at Elevated Temperature with h-BN Encapsulation,” ACS Appl. Mater. Interfaces,13(26), 31271 (2021)
94. E. Easy, Y. Wang, Y. Gao, D. Yan, S. M. Goushehgir, E. H. Yang, B. Xu, X. Zhang, “Experimental and Computational Investigation of Layer Dependent Thermal Conductivities and Interfacial Thermal Conductance of 1- to 3-Layer WSe₂,” ACS Appl. Mater. Interfaces, 13, 11 (2021)
93. K. Kang, S. Fu, K. Shayan, S. Dadras, A. Yoshimura, S. Chen, Y. Xiong, K. Fujisawa, W. Zhang, M. Terrones, V. Meunier, A.N. Vamivakas, S. Strauf, E. H. Yang, “The Effects of Fe-doping on Magnetism in MoS₂ and WS₂ Monolayers,” Nanotechnology, 32(9), 095708 (2020)
92. R. Zhang, A. Palumbo, G. Hader, K. Yan, J. Chang, H. Wang, and E. H. Yang, “A Flexible Pressure Sensor with a Sandwiched Carpets of Vertically Aligned Carbon Nanotubes Partially Embedded in Polydimethylsiloxane Substrates,” IEEE Sensors Journal, 20(20), 12146 (2020)
91. Y. Wang, Y. Gao, D. Yan, S. M. Goushehgir, E. H. Yang, B. Xu, X. Zhang, “Thermal Conductivities and Interfacial Thermal Conductance of 1- to 3-Layer WSe₂,” arXiv preprint arXiv:2011.00730 (2020)
90. J. Kashyap, E. H. Yang, and D. Datta, “The Mechanisms of Wrinkle Formation, Evolution, and Collapse in Graphene due to Diffused Water between Graphene and Substrate,” Scientific Reports, 10, 11315 (2020)
89. S. Fu, K. N. Kang, K. Shayan, A. Yoshimura, S. Dadras, X. Wang, L. H. Zhang, A. Jindal, X. Li, S. Chen, A. Pasupathy, N. Vamivakas, V. Meunier, S. Strauf and E. H. Yang, “Enabling Room Temperature Ferromagnetism in Monolayer MoS₂ via in Situ Iron-Doping,” Nature Communications, 11, 2034 (2020)
88. K. Ghatak, K. Kang, E. H. Yang, and D. Datta, “Controlled Edge Dependent Stacking of WS₂-WS₂ Homo- and WS₂-WSe₂ Heterostructures: A Computational Study,” Scientific Reports, 10, 1648 (2020)
87. J. Kashyap, E. H. Yang, and D. Datta, “Comprehensive Understanding of Water-driven Graphene Wrinkle Life-cycle towards Applications in Flexible Electronics: A computational study,” arXiv:2001.00614 (2020)
86. W. Fink, S. Brown, A. N. Zuniga, E. H. Yang, and T. George, “Conceptual Design Considerations for a Wireless Intraocular Pressure Sensor System for Effective Glaucoma Management,” Journal of Medical Engineering & Technology, 43(8), 457 (2019)
85. L. M. Schneider, J. Kuhnert, S. Schmitt, U. Huttner, T. Strouken, S. W. Koch, W. Heimbrodt, K. Kang, S. Fu, X. Wang, E. H. Yang, and A. Rahimi-Iman “Spin-Layer- and Spin-Valley-Locking in CVD-Grown AA' and AB Stacked Tungsten Disulfide Bilayers,” The Journal of Physical Chemistry C, 123(35), 21813 (2019)
84. X. Wang, K. Kang, S. Fu, S. Chen and E. H. Yang, “Effects of Wet Transfer on Photoluminescence of WS₂,” Journal of Vacuum Science and Technology B, 37, 052902 (2019)
83. R. Zhang, J. C. Kim, J. Ding, A. Palumbo, and E. H. Yang, “Flexible Energy Storage using Graphene, Graphene Oxide and Carbon Nanotubes,” Annalen der Physik., 1800507 (2019) Invited Review Article, top 10% downloaded paper
82. R. Zhang, K. Yan, A. Palumbo, J. Xu, S. Fu, and E. H. Yang, “A Stretchable and Bendable All-Solid-State Pseudocapacitor with Dodecylbenzenesulfonate-doped Polypyrrole-Coated Vertically Aligned Carbon Nanotubes Partially Embedded in PDMS,” Nanotechnology, 30, 095401 (2018) Featured Article
81. A. Palumbo, S. Fu, R. Chang and E. H. Yang, “Influence of Transition Metal Dichalcogenides on Cellular Morphology and Adhesion,” ACS Applied Bio Materials, 1(5), 1448 (2018)
80. J. Xu, S. Fu, W. Xu and E. H. Yang, “A Carbon Nanotube-embedded Conjugated Polymer Mesh with Controlled Oil Absorption and Surface Regeneration via in situ Wettability Switch,” Journal of Colloid and Interface Science, 532, 790 (2018)
79. A. M. Dadgar, D. Scullion, K. Kang, D. Esposito, E. H. Yang, I. P. Herman, M. A. Pimenta, E.-J. G. Santos and A. N. Pasupathy, “Strain Engineering and Raman Spectroscopy of Monolayer Transition Metal Dichalcogenides,” Chemistry of Materials, 30, 5148 (2018)
78. M. Wang, E. H. Yang, R. Vajtai, J. Kono, and P. Ajayan, “Effects of Transfer Etchants on Transferred Chemical Vapor Deposited Graphene,” Journal of Applied Physics, 123, 195103 (2018) Featured Article
77. S. Lippert, L. M. Schneider, D. Renaud, K. Kang, O. Ajayi, M. U. Halbich, O. M. Abdulmunem, X. Lin, J. Kuhnert, K. Hassoon, S. Edalati-Boostan, Y. D. Kim, W. Heimbrodt, E. H. Yang, J. C. Hone, and A. Rahimi-Iman,” The Impact of the Substrate Material on the Optical Properties of 2D WSe₂ Monolayers," Semiconductors, 52(5), 565 (2018) (2018)
76. R. Zhang, J. Ding and E. H. Yang, “Highly Stretchable Supercapacitors with Vertically Aligned Carbon Nanotubes Partially Embedded in PDMS,” ACS Applied Energy Materials, 1(5), 2048, (2018)
75. D. S. Choi, E. H. Yang, W. Gill, A. Berndt, J.-R. Park, J. E. Ryu, “Fabrication and Electrochemical Characterization of Supercapacitor based on Three-dimensional Composite Structures of Graphene and a Vertical Array of Carbon Nanotubes,” Journal of Composite Materials, 52(22), 3039 (2018)
74. M. Wang and E. H. Yang, “Terahertz Applications of 2D Materials: Graphene and Beyond,” Nano-Structures & Nano-Objects, 15, 107 (2018)
73. E. H. Yang, K. Kang, D. Datta, J. Ding, and G. Hader, “A Special Issue on Modeling and Nanofabrication of 1D and 2D Materials,” Nano-Structures & Nano-Objects, 15, 61 (2018)
72. K. Godin, C. Cupo and E. H. Yang, “Varying Step Heights and Contrast Inversion in Dynamic AFM of TMD Monolayers,” Scientific Reports, 7, 17798 (2017)
71. A. M. Dadgar, D. Scullion, K. Kang, D. Esposito, E. H. Yang, I. P. Herman, M. A. Pimenta, E.-J. G. Santos and A. N. Pasupathy, Achieving Large, Tunable Strain in Monolayer Transition-Metal Dichalcogenides,” arXiv:1705.05412 (2017)
70. J. Ding, S. Fu, E. Boon, W. Lee, F. Fisher and E. H. Yang, “Graphene-Vertically Aligned Carbon Nanotube Hybrid on PDMS as Stretchable Electrodes,” Nanotechnology, 28, 465302 (2017)
69. Y. Jiang, J. Xu, J. Lee, K. Du, E. H. Yang, M.-W. Moon and C.-H. Choi, “Nanotexturing of Functional Conductive Polymers via One-step Maskless Oxygen Plasma Etching for Enhanced Tunable Wettability,” Langmuir, 33(27), 6885 (2017)
68. W. Xu, A. Palumbo, J. Xu, Y. Jiang, C.-H. Choi and E. H. Yang, “On-demand Capture and Release of Organic Microdroplets using Surfactant-doped Polypyrrole Surfaces,” ACS Applied Materials and Interfaces, 9(27), 23119 (2017)
67. X. Wang, K. Kang, S. Chen and E. H. Yang, “Location-specific Growth and Transfer of Arrayed MoS₂ Monolayers,” 2D Materials, 4, 025093 (2017)
66. K. Kang, K. Godin, Y. D. Kim, S. Fu, W. Jang, J. Hone and E. H. Yang “Graphene-Assisted Anti-Oxidation of Tungsten Disulfide Monolayers: Substrate and Electric Field Effect,” Advanced Materials, 18, 1603898 (2017) Cover Article
65. S. Lippert, L. M. Schneider, D. Renaud, K. Kang, O. Ajayi, M. U. Halbich, O. M. Abdulmunem, X. Lin, J. Kuhnert, K. Hassoon, S. Edalati-Boostan, Y. D. Kim, W. Heimbrodt, E. H. Yang, J. C. Hone, and A. Rahimi-Iman, “Influence of the Substrate Material on the Optical Properties of Tungsten Diselenide Monolayers,” 2D Materials, 4, 025045 (2017)
64. J. Xu, A. Palumbo, W. Xu, and E. H. Yang, “Effects of Electropolymeriation Parameters of PPy(DBS) Surfaces on the Droplet Flattening Behaviors during Redox,” Journal of Physical Chemistry B, 120(39), 10381 (2016)
63. J. Ding, F. T. Fisher, and E. H. Yang, “Direct Transfer of Corrugated Graphene Sheets for Stretchable Electrodes,” Journal of Vacuum Science and Technology B, 5(34), 2166 (2016) Editor’s Pick
62. W. Xu, J. Xu, X. Li, Y. Tian, C.-H. Choi and E. H. Yang, “Lateral Actuation of an Organic Droplet on PPy(DBS) Electrodes via Imbalanced Interfacial Tensions,” Soft Matters, 12, 6902 (2016) Cover Article
61. K. Godin, K. Kang, S. Fu and E. H. Yang, “Increased Monolayer Domain Size and Patterned Growth of Tungsten Disulfides through Controlling Surface Energy of Substrates,” Journal of Physics D: Applied Physics, 49, 325304 (2016)
60. W. Xu, J. Xu, C.-H. Choi and E. H. Yang, “In situ Control of Underwater-Pinning of Organic Droplets on a Surfactant-Doped Polymer Surface,” ACS Applied Materials and Interfaces, 7(46), pp 25608–25617 (2015)
59. K. Kang, K. Godin and E. H. Yang, “The Growth Scale and Kinetics of WS₂ Monolayers under Varying H₂ Concentration,” Scientific Reports, 5, 13205 (2015)
58. J. Ding, K. Du, I. Wathuthanthri, C.-H. Choi, F. T. Fisher, and E. H. Yang, “Transfer Patterning of Large-Area Graphene Nanomesh via Holographic Lithography and Plasma Etching,” Journal of Vacuum Science and Technology B, 6(32), 2166 (2014) Most Downloaded Article
57. K. Kumar, Y. Kim, X. Li, J. Ding, F. Fisher and E. H. Yang, “Chemical Vapor Deposition of Carbon Nanotubes on Monolayer Graphene Substrates: Reduced Etching via Suppressed Catalytic Hydrogenation Using C₂H₄,” Chemistry of Materials, 25(19), 3874 (2013)
56. V. Patil, A. Capone, S. Strauf and E. H. Yang, “Improved Photoresponse with Enhanced Photoelectric Contribution in Fully Suspended CVD Graphene Photodetectors,” Scientific Reports, 3, 2791 (2013)
55. K. Kumar, K. Kim and E. H. Yang, “The Influence of Thermal Annealing to Remove Polymeric Residue on the Electronic Doping and Morphological Characteristics of Graphene,” Carbon, 65, 35 (2013)
54. K. Kumar and E. H. Yang, “On the Growth Mode of Two-lobe Curvilinear Graphene Domains at Atmospheric Pressure,” Scientific Reports, 3, 2571 (2013)
53. Y.-T. Tsai, C.-H. Choi, and E. H. Yang, “Low-Voltage Manipulation of an Aqueous Droplet in a Microchannel via Tunable Wetting on PPy(DBS),” Lab Chip, 13, 302 (2013)
52. Y. Kim, K. Kumar, F. Fisher and E. H. Yang, “Out-of-Plane Growth of CNTs on Graphene for Supercapacitor Applications,” Nanotechnology, 23, 015301 (2012) Featured in the exclusive ‘Highlight 2012’ collection
51. M. Belgiarbekov, K. Sasaki, O. Sul, E. H. Yang, and S. Strauf, “Optical Control of Edge Chirality in Graphene,” Nano Letters, 11, 4874 (2011)
50. Y.-T. Tsai, C.-H. Choi, N. Gao and E. H. Yang, “Tunable Wetting Mechanism of Polypyrrole Surfaces and Low-Voltage Droplet Manipulation via Redox,” Langmuir, 27(7), 4249 (2011).
49. W. Xu, R. Leeladhar, Y.-T. Tsai, E. H. Yang, and C.-H. Choi, “Evaporative Self-Assembly of Nanowires on Superhydrophobic Surfaces of Nano-Tip Latching Structures,” Applied Physics Letters, 98, 073101 (2011). Cover Article
48. M. Belgiarbekov, O. Sul, J. Santanello, N. Ai, X. Zhang, E. H. Yang, and S. Strauf, “Localized States and Resultant Band Bending in Graphene Antidot Superlattices,” Nano Letters, 11(3), 1254 (2011).
47. O.Sul, S. Jang and E. H. Yang, “Determination of Mechanical Properties and Actuation Behaviors of Polypyrrole-Copper Bimorph Nanoactuators,” IEEE Trans. Nanotechnology (TNANO),10(5), 985 (2011)
46. K. Kumar, O. Sul, S. Strauf, F. Fisher, D. S. Choi, M. G. Prasad, and E. H. Yang, “A Study on Nanoscale Carbon Nanotube Local Oxidation Lithography using an Atomic Force Microscope,” IEEE Trans. Nanotechnology (TNANO), 10(4), 849 (2011)
45. M. Belgiarbekov, O. Sul, N. Ai, E. H. Yang, and S. Strauf, “Aperiodic Conductivity Oscillations in Quasi-ballistic Graphene Heterojunctions,” Applied Physics Letters, 97, 122106, (2010).
44. E. H. Yang, “Engineered Low-Dimensional Nanomaterials for Sensors, Actuators and Electronics,” Journal of Micro/Nanolithography, MEMS, and MOEMS (JM3), Reliability Special II, 9(04), 041103, (2010).
43. O.Sul, S. Jang, D. S. Choi and E. H. Yang, “Fabrication and Characterization of a Ni-Al₂O₃ Bimorph Nanoactuator,” Nanoscience and Nanotechnology Letters, 2(2), 129 (2010).
42. D. S. Choi, J.-R. Park, S. Lee, T. Hahn, N. Presser, M. Leung, G. Stupian, E. H. Yang, and F Khalid, “Microcapacitors based on Electrochemically Grown Vertical Arrays of Gold Nanowire as Electrodes,” Thin Solid Films, 518(17), 5007 (2010).
41. O.Sul, C. Tsai, N. Gao and E. H. Yang, “Manipulation of Low-Dimensional Nanomaterials Using Water Meniscus,” Nanoscience and Nanotechnology Letters, 2(2), 133 (2010).
40. Z. Zhang, N. Dahal, K. Xu, and D. Choi, E. H. Yang and J. R. Park, “Electrochemical Characterization of Tin Quantum Dots Grown on a Carbon Nanotube Mat as Anodes for Battery Applications,” Nanoscience and Nanotechnology Letters, 2(2), 86 (2010).
39. M. Belgiarbekov, O. Sul, S. Kalliakos, E. H. Yang, and S. Strauf, “Determination of Edge Purity in Bilayer Graphene using m-Raman Spectroscopy,” Applied Physics Letters, 97, 031908 (2010).
38. N. Ai, O. Sul, M. Begliarbekov, Q. Song., K. Kumar, D. S. Choi, E. H. Yang, S. Strauf, “Transconductance and Coulomb Blockade Properties of In-plane Grown Carbon Nanotube Field-Effect Transistors,” Nanoscience and Nanotechnology Letters, 2(2), 73-78 (2010).
37. N. Gao, H. Wang and E. H. Yang, “An Experimental Study on Ferromagnetic Nickel Nanowires Functionalized with Antibody for Cell Separation,” Nanotechnology, 21, 105107 (2010).
36. Y.-T. Tsai, W. Xu, E. H. Yang and C.-H. Choi, “Self-Assembly of Nanowires at Three-Phase Contact Lines on Superhydrophobic Surfaces,” Nanoscience and Nanotechnology Letters, 2(2), 150 (2010).
35. J. Yang, H. J. Yoon, E. H. Yang, S. S. Yang, “A nickel nanowire diluter operating through the principle of the dielectrophoretic attraction force,” Transactions of the Korean Institute of Electrical Engineers, 59(2), 385 (2010).
34. A. Kaul and E. H. Yang, “A Special Issue on Nanoscale Materials, Structures and Devices for Sensors and Systems Applications,” Nanoscience and Nanotechnology Letters, 2(2), 63 (2010).
33. K. Kumar, S. Strauf, and E. H. Yang, “A Systematic Study of Graphite Local Oxidation Lithography Parameters Using an Atomic Force Microscope,” Nanoscience and Nanotechnology Letters, 2(2), 185 (2010).
32. O.Sul, S. Jang and E. H. Yang, “Step-Edge Calibration of Torsional Sensitivity for Lateral Force Microscopy,” Measurement Science and Technology, 10, 115104, (2009).
31. S. W. Lee, S. S. Lee, and E. H. Yang, “A Study on Field Emission Characteristics of Planar Graphene Sheets Obtained from a Highly Oriented Pyrolyzed Graphite Block,” Nanoscale Research Letters, 4(10), 1218 (2009).
30. D. S. Choi, V. Fucsko, E. H. Yang, J.-R. Park, F. Khalid and Y.-K. Kim, “Vertical Arrays of Copper Nanotube Grown on Silicon Substrate by CMOS Compatible Electrochemical Process for IC Packaging Applications,” Journal of Microelectronics and Electronic Packaging, 6(3), 154 (2009).
29. D. S. Choi and E. H. Yang, “Fabrication of Buried Nanochannels by Transferring Metal Nanowire Patterns,” Sensors and Materials, 21(6), 315 (2009).
28. O.Sul and E. H. Yang, “A Multi-Walled Carbon Nanotube-Aluminum Bimorph Nanoactuator,” Nanotechnology, 20, 095502 (2009).
27. K. Shcheglov, Z. Chang, X. Jiang, R. Toda and E. H. Yang, “Hybrid Linear Microactuators and Their Control Models for Mirror Shape Correction,” Journal of Micro and Nano-Mechatronics, 4(4), 159 (2009).
26. Y. Rheem, C. Hangarter, E. H. Yang, N. V. Myung, and B. Yoo, “Site-Specific Magnetic Assembly of Ferromagnetic Nanowire,” IEEE Trans. Nanotechnology (TNANO), 7, 251 (2008).
25. R. Toda and E. H. Yang, “Normally-Latched, Large-Stroke, Inchworm Microactuator,” Journal of Micromechanics and Microengineering, 17, 1715 (2007).
24. E. H. Yang, C. Lee and J. Khodadadi, “Development of MEMS-Based Piezoelectric Microvalve Technologies – Fabrication, Characterization and Modeling,” Sensors and Materials, 19, 1 (2007). Special Issue on Microvalve, Invited paper
23. C. M. Hangarter, Y. Rheem, B. Yoo, E. H. Yang, and N. V. Myung, “Hierarchical Magnetic Assembly of Nanowires,” Nanotechnology, 18 (2007). Cover Article, Most Downloaded Article
22. C. A. Johnson, J. M. Khodadadi and E. H. Yang, “Modeling of Frictional Gas Flow Effects in a Piezoelectrically Actuated High-pressure Microvalve under Low Leak-rate Conditions,” Journal of Micromechanics and Microengineering, 16, 2771 (2006).
21. E. H. Yang, Y. Hishinuma, J.-G. Cheng, S. Trolier-McKinstry, E. Bloemhof, and B. M. Levine, “Thin-Film Piezoelectric Unimorph Actuator-based Deformable Mirror with a Transferred Silicon Membrane,” IEEE/ASME Journal of Microelectromechanical Systems, 15(5), 1214 (2006).
20. C. Lee, E. H. Yang, S. M. Saeidi and J. Khodadadi, “Fabrication, Characterization and Computational Modeling of a Piezoelectrically Actuated Microvalve for Liquid Flow Control,” IEEE/ASME Journal of Microelectromechanical Systems, 15(3), 686 (2006).
19. Y. Hishinuma and E. H. Yang, “Piezoelectric Unimorph Microactuator Arrays for Single-Crystal Silicon Continuous Membrane Deformable Mirror,” IEEE/ASME Journal of Microelectromechanical Systems, 15(2), 370 (2006).
18. E. H. Yang, C. S. Lee, J. Mueller and T. George, “Leak-Tight Piezoelectric Microvalve for High-Pressure Gas Micropropulsion,” IEEE/ASME Journal of Microelectromechanical Systems, 13(5), 799 (2004).
17. E. H. Yang and D. V. Wiberg “A Wafer-Scale Membrane Transfer Process for the Fabrication of Optical Quality, Large Continuous Membranes,” IEEE/ASME Journal of Microelectromechanical Systems, 12(6), 804 (2003).
16. C. Lee, E. H. Yang, N.V. Myung, and T. George, “A Nanochannel Fabrication Technology without Nanolithography,” Nano Letters, 3(10), 1339 (2003).
15. J. Mueller, J. Polk, E. H. Yang, A. Green, V. White, D. Bame, I. Chakraborty, S. Vargo, and R. Reinicke, “An Overview of MEMS-Based Micropropulsion Developments at JPL,” Acta Astronautica, 52(9), 881 (2003). Invited Paper
14. E. H. Yang and H. Fujita, “Reshaping of Single Crystal Silicon Microstructures,” Japanese Journal of Applied Physics, Part 1, 38(3A), 1580 (1999).
13. E. H. Yang and H. Fujita, “Determination of the Modification of Young's Modulus due to Joule Heating of Microstructures Using U-Shaped Beams,” Sensors and Actuators A, 70, 85 (1998).
12. E. H. Yang, S. S. Yang and O. C. Jeong, “Fabrication and Electrostatic Actuation of Thin Diaphragms,” KSME International Journal, 12, 161 (1998).
11. E. H. Yang and S. S. Yang, “The Quantitative Determination of the Residual Stress Profile in Oxidized p+ Silicon Films,” Sensors and Actuators A, 54, 684 (1996).
10. E. H. Yang, S. W. Han and S. S. Yang, “Fabrication and Testing of a Pair of Passive Bivalvular Microvalves Composed of p+ Silicon Diaphragms,” Sensors and Actuators A, 57, 75 (1996).
7. E. H. Yang, S. S. Yang, E. J. Park, S. H. Yoo, “Optimal Valve Design and Fabrication of an Electrostatic Micropump with p+ Diaphragms,” Journal of Korean Institute of Electrical Engineers, 9 (4), 236 (1996).
6. E. H. Yang, S. S. Yang, S. W. Han and S. Y. Kim, “Fabrication and Dynamic Testing of Electrostatic Microactuators with p+ Diaphragms,” Sensors and Actuators A, 50, 151 (1995).
5. E. H. Yang, S. S. Yang and S. H. Yoo, “A Technique for Quantitative Determination of the Profile of the Residual Stress along the Depth of p+ Silicon Films," Applied Physics Letters,67 (7), 14, 912 (1995).
4. E. H. Yang and S. S. Yang, "A Silicon Piezoresistive Accelerometer with Silicon-On-Insulator Structure," Transactions of the Korean Institute of Electrical Engineers, 43, 1036 (1994).
3. S. S. Yang, E. H. Yang, S. Y. Kim and J. D. Seo, "Development of Design and Process Technique for the Fabrication of Micropumps," Transactions of the Korean Institute of Electrical Engineers, 43, 1891 (1994)
2. S. S. Yang and E. H. Yang, " Research Trends in the Fabrication and Applications of Micropumps," Transactions of the Korean Society of Mechanical Engineers, 33, 529 (1993)
1. E. H. Yang and S. S. Yang, "A Study on a Silicon Resonator for Piezoresistive Accelerometers," Transactions of the Korean Institute of Electrical Engineers, 41, 1164 (1992).

Keynote and Invited Conference/Workshop and Seminar Presentations
107. “2D Magnets for Spintronics and Quantum Sensing,” IEEE Sensors Council Distinguished Lecture, SENNANO 2023, Putrajaya, Malaysia, September 26-27, 2023.
106. “2D Magnets for Spintronics and Quantum Sensing,” IEEE Sensors Council Distinguished Lecture, Kyunghee University, Korea, July 22, 2023.
105. “2D Magnets for Spintronics and Quantum Sensing,” IEEE Sensors Council Distinguished Lecture, IEEE Sensors Council Student Branch Chapter, India, June 22, 2023.
104. “2D Magnets for Spintronics and Quantum Sensing,” Battery Complexity, Automotive Vehicle and Electrification Research Center, UNC Charlotte, March 13, 2023
103. “2D Magnets for Spintronics and Quantum Sensing,” MAE Seminar Series, NCSU, March 10, 2023
102. “2D Magnets for Spintronics and Quantum Sensing,” FNMS-COOP Meeting, Nov. 28, 2022
101. “Graphene Nanorings for Electron Interferometers,” SERC Research Review, Nov. 16, 2022
100. “Synthesis, Nanofabrication and Characterization of 2D Magnetic Semiconductors for Magnetic Tunnel Junctions,” MS&T22: Materials Science & Technology, Pittsburgh, PA, Oct. 9-13, 2022.
99. “2D Magnetic Semiconductors and Stretchable Electrodes,” Mechanical Engineering Quoloqium, NJIT, March 30, 2022
98. “Ferromagnetism in Iron-doped Transition Metal Dichalcogenides,” 3^rd Edition of Webinar on Nanotechnology, August 3, 2021
97. “Ferromagnetism in Iron-doped Transition Metal Dichalcogenides,” Webinar on Graphene Technology, Feb. 2021 Plenary Lecture
96. "Air Stability, Doping, and Magnetism in Transition Metal Dichalcogenides,” Physics Colloquium, SUNY Buffalo, Dec. 3^rd, 2020 (Virtual)
95. “Magnetism in 2D Flatlands,” 25^th International Online Conference on Advanced Materials & Nanotechnology - Webinar, Nov. 2020
94. “Atomically Thin Magnetic Crystals,” MS&T Symposium, Pittsburg, PA, Oct. 5-7, 2020 (Virtual)
93. “Magnetism in 2D Flatlands,” Mechanical Engineering Seminar Series - Webinar, Stevens Institute of Technology, June 2020
92. “Atomically Thin Magnetic Crystals,” SES Research Forum - Webinar, Stevens Institute of Technology, June 2020
91. “Synthesis of Atomically Thin 2D Magnets,” Center for Distributed Quantum Computing - Webinar, Stevens Institute of Technology, April 2020
90. “Synthesis of Atomically Thin 2D Magnets,” 33rd International Conference on Advanced Nanoscience and Nanotechnology, April 2020 (Virtual) Keynote Lecture
89. "In situ Iron-doping of TMD Monolayers toward Room Temperature Ferromagnetism,” KSEA Northeast Regional Conference (NRC), Engineering Session, March 28, 2020
88. “Roomba on Water - Cleaning Oil Spills instead of Dust,” Ocean, Climate Change and Sustainability Showcase, Hoboken, NJ, July 24, 2019
87. “Carbon Nanotubes and Conjugated Polymer Films for Tunable Surfaces and Flexible Electrodes,” International Conference on Nature Inspired Surface Engineering (NISE), Hoboken, NJ, June 12-14, 2019
86. “1D and 2D Materials and Flexible Substrates,” Collaborative Conference on Materials Research (CCMR), Koyang, Korea, 3-7 June 2019
85. “1D and 2D Materials, and Flexible Substrates,” SPIE DDS, Micro- and Nanotechnology Sensors, Systems, and Applications X, Baltimore, MD, USA, April 2019
84. “2D Materials, Flexible Substrates and Surfaces,” ASME International Mechanical Engineering Congress and Exposition, Pittsburg, PA, November 2018 Track Plenary
83. "1D and 2D Materials, Flexible Substrates and Tunable Surfaces,” NIST, July 24, 2018
82. "2D Materials, Flexible Substrates and Surfaces,” International Conference on Material Science and Engineering, Rome, Italy June 25-27, 2018 Conference Keynote
81. "Tunable Wetting on Conjugated Polymer Surfaces for Oil-Water Separation,” 7^th World Congress on Biopolymer and Polymers Chemistry, Osaka, Japan, June 2018 Conference Keynote
80. "A Study on the Growth of WS₂ Homobilayers with Controlled AA and AB Stacking using Two-step van der Waals Epitaxy,” Gordon Research Conferences - Two Dimensional Electronics Beyond Graphene, Easton, MA, June 3-8, 2018
79. “2D Flatlands beyond Graphene – Synthesis, Characterization and Application,” 2D Materials Symposium, Hangzhou, China, May 2018 Plenary
78. "Controlled Growth of 2D Heterostructures and Prevention of TMD Oxidation,” SPIE DDS, Micro- and Nanotechnology Sensors, Systems, and Applications X, Orlando, Florida, USA, April 2018
77. “Synthesis of 2D Flatlands,” Center for Distributed Quantum Computing, Stevens Institute of Technology, November 2017
76. “2D Flatlands beyond Graphene – Synthesis, Characterization and Application,” Conference Keynote, 2nd International Conference on Applied Crystallography, Chicago, IL, USA, October 16-17, 2017
75. “1D/2D Materials, Substrates and Surfaces,” Naval Research Laboratory, February 28, 2017
74. "In-Phase Growth of Transition Metal Dichalcogenide Heterostructures,” Nanotech-2016, Baltimore, MD, Oct. 20, 2016, Conference Keynote
73. "Controlled Growth of Graphene, Carbon Nanotubes and Transition Metal Dichalcogenides,” Global Nanotechnology Congress and Expo, Dubai, UAE, April 21-23, 2016 Conference Keynote
72. "Controlled Growth of Graphene, Carbon Nanotubes and Transition Metal Dichalcogenides,” Nanomaterials, Dubai, UAE, April 23, 2016, Conference Plenary
71. "Nanoengineered Carbon Surfaces – Fundamentals and Applications,” UKC 2015, July 31, 2015
70. “Nanoengineered Carbon Surfaces – Fundamentals and Applications,” MSE Colloquium, Columbia University, November 14, 2014
69. “Controlled Growth of Carbon Nanotubes on Monolayer Graphene Substrates,” KU-Stevens Nano-Bio Joint Symposium, October 22, 2014
68. “Nanoengineered Tunable Carbon Surfaces,” North Texas University, Denton, TX, Oct. 2014.
67. “Graphene and CNT Architectures - Fundamentals and Device Applications,” ThinFilms2014, 15-18 July 2014, Chongqing, China Conference Keynote
66. "Controlled Growth of Carbon Nanotubes on Monolayer Graphene Substrates,” SNU, Korea, July 2014.
65. “Nanoengineered Tunable Carbon Surfaces,” KETI, Korea, July 2014.
64. “Graphene and CNT Architectures - Fundamentals and Device Applications,” AICT, Korea, July 2014.
63. “Smart Carbon-based Nanomaterials and Devices for Microfluidics and Optoelectronics,” POSTECH, Korea, July 2014.
62. “Nanoengineered Tunable Carbon Surfaces,” KIMS, Korea, July 2014.
61. “Smart Carbon-based Nanomaterials and Devices for Light-harvesting, Energy Storage and Microfluidics,” UNIST, Korea, July 2014.
60. “Controlled Growth of Carbon Nanotubes on Monolayer Graphene Substrates,” KAIST, Korea, July 2014.
59. “Nanoengineered Tunable Carbon Surfaces,” ETRI, Korea, June 2014.
58. “Graphene Devices for Optoelectronics,” Ajou University, Korea, June 2014.
57. “Nanoengineered Tunable Carbon Surfaces,” University of Central Florida, FL, March 2014.
56. “Engineering Graphene and Carbon Nanotube Architectures for Sensing and Energy Storage Applications,” International Conference and Exhibition on Laser, Optics and Photonics, San Antonio, TX, Oct. 7-9, 2013 Conference Keynote
55. "Tunable Wetting on Conjugated Polymer Surfaces for Microfluidics,” Lab-on-a-Chip World Congress, San Diego, CA, Sept. 12-13, 2013.
54. “Nanoengineered Tunable Carbon Surfaces,” UKC 2013, Newark, NJ, Aug. 7-9, 2013.
53. “Smart Carbon-based Nanomaterials and Devices for Light-harvesting, Energy Storage and Microfluidics,” NC State University, NC, March 2012.
52. “Graphene-based Nano-Opto-Electro-Mechanical Devices,” ASME International Mechanical Engineering Congress and Exposition, Denver, CO, Nov. 2011.
51. “Graphene-based Nano-Opto-Electro-Mechanical Devices,” Lehigh University, PA, Oct. 2011.
50. “Smart Carbon-based Nanomaterials and Devices for Microfluidics and Optoelectronics,” Columbia University, NY, Oct. 2011.
49. “Nanoengineered Graphene Devices for Optoelectronics,” UKC 2011, Park City, Utah, August 2011.
48. “Engineered Graphene Devices for Optoelectronics,” NASA Goddard Space Flight Center, Maryland, April 2011.
47. “Graphene Optoelectronics based on Antidot Superlattices,” SPIE Defense and Security Symposium, Micro- and Nanotechnology Sensors, Systems, and Applications, Conference, Orlando, FL, April 2011.
46. “Carbon-based Nanotechnology for Sensors, Actuators and Electronics,” ASME/Pacific Rim Technical Conference and Exhibition on Integration and Packaging of MEMS, NEMS and Electronic Systems (InterPACK ’11), Portland, OR, July 2011 Track Plenary
45. "Engineered Nanomaterials for Nanoelectronics and Microfluidics,” Montana State University, Montana, November 2010.
44. “Engineered Carbon Nanotube and Graphene for Nanoelectronics and Nanomechatronics,” NASA Jet Propulsion Laboratory, California, May 2010.
43. “Engineered Carbon Nanotube and Graphene for Nanoelectronics and Nanomechatronics,” NASA Goddard Space Flight Center, Maryland, April 2010.
42. “Engineered Carbon Nanotubes and Graphene for Nanoelectronics and Nanomechanics,” SPIE Defense and Security Symposium, Micro- and Nanotechnology Sensors, Systems, and Applications, Conference, Orlando, FL, April 2010.
41. “Engineered Nanowires, Carbon Nanotubes and Graphene for Sensors, Actuators and Electronics,” SPIE MEMS-MOEMS, San Francisco, Jan. 2010.
40. “Carbon-based Nano Devices for Sensors, Actuators and Electronics,” SPIE Defense and Security Symposium, Micro- and Nanotechnology Sensors, Systems, and Applications, Conference 7318 - Proceedings of SPIE Volume 7318, Orlando, FL, April 2009.
39. “Engineered Carbon Nanotube and Graphene for Sensors, Actuators and Nanoelectronics,” Louisiana State University, Oct. 2009
38. “Engineered Carbon Nanotube and Graphene Materials for Nanoelectronics, Sensors and Actuators,” CCNY, Sept. 2009.
37. “Piezoelectric Microactuators and Nanoelectronics for Space Applications,” Ajou University, Korea, July 2008.
36. “High-Performance Piezoelectric Microactuator Technologies,” ETRI, Korea, July 2008.
35. “Piezoelectric Microactuators and Nanoelectronics for Space Applications,” Pusan National University, Korea, July 2008.
34. “MEMS Adaptive Optics,” Inje University, Korea, July 2008.“Microfabricated Actuators for Space Applications,” POSTECH, July 2008.
33. “Piezoelectric Microactuators and Nanoelectronics for Space Applications,” NASA Goddard Space Flight Center, Maryland, June 2008.
32. “Piezoelectric Microactuator Technologies for Space Applications,” University of Arkansas, Fayetteville, AR, April 2008.
31. “High-Performance Piezoelectric Microactuator Technologies – Large-Stroke MEMS Deformable Mirror and High-Force Microvalve,” DARPA/MTO Piezoelectric MEMS Workshop, San Francisco, CA, March 2008.
30. “Microfabricated Actuators for Space Applications,” ASME/Pacific Rim Technical Conference and Exhibition on Integration and Packaging of MEMS, NEMS and Electronic Systems (InterPACK ’07), Vancouver, Canada, July 8-12, 2007 Track Keynote
29. "Microactuators for Wavefront Correction in Space,” SPIE Defense and Security Symposium, Micro and Nanotechnologies for Defense and Security, Proceeding of SPIE, Vol. 6556, Orlando, FL, April 2007
28. “Piezoelectric Microactuator Technologies for Space Applications,” NJIT, Feb. 2007.
27. “MEMS Adaptive Optics,” Picatinny Arsenal, NJ, Feb. 2007.
26. “Piezoelectric Microactuators Technologies for Space Applications,” Columbia University, Nov. 2006.
25. “Microactuators Technologies for Wavefront Correction in Space,” Rutgers University, Oct. 2006.
24. “Development of Microactuators Technologies for Space Applications,” Seoul National University, Seoul, Korea, July 2006.
23. “Microactuators for Wavefront Correction in Space,” Ihwa Woman’s University, Seoul, Korea, July 2006.
22 “Deployable Optical Mirror with Controlled Deformation,” Ajou University, Suwon, Korea, July 2006.
21. “Piezoelectric Microactuators Technologies for Space Applications,” IEEE Metropolitan LA Section General Membership Dinner Meeting, California Institute of Technology, Pasadena, CA, April 2006.
20. “Development of Microactuators Technologies for Space Applications,” Mechanical Engineering Seminar Series, Stevens Institute of Technology, Hoboken, NJ, March 2006.
19. “Development of Microactuators Technologies for Space Applications,” BSAC Lunch Time Seminar Series, University of California, Berkeley, November 2005.
18. “High-Performance Piezoelectric Microactuator Technologies – Large-Stroke MEMS Deformable Mirror and High-Force Microvalve,” WIMS Center Seminar Series, NSF Engineering Research Center for Wireless Integrated Microsystems at the University of Michigan, Ann Arbor, September 2005.
17. “Development of Microactuators Technologies for Space Applications,” Lunch Time Seminar Series, Northrop Grumman Corporation, Woodland Hills, CA, August 2005.
16. “Development of Wavefront Corrector Technologies for Space Applications,” NASA Mirror Tech Days 2005, Huntsville, Alabama, August 2005.
15. “High-Performance Piezoelectric Microactuator Technologies – Large-Stroke MEMS Deformable Mirror and High-Force Microvalve,” Korea Advanced Institute of Science and Technology, Korea, June 1, 2005.
14. “Development of Microactuators Technologies for Space Applications,” Gwangju Institute of Science and Technology, Korea, May 31, 2005.
13. “Deployable Optical Mirror with Controlled Deformation,” DARPA MTO Polymer MEMS Workshop, Washington DC, March 2~3, 2005.
12. “Adaptive Optics – MEMS Deformable Mirror Development at JPL,” JPL Advanced Planning and Integration, Jet Propulsion Laboratory, Nov. 4, 2004.
11. “MEMS Actuators for Space Applications,” JPL Division 32-38 Joint Seminar, Jet Propulsion Laboratory, April 2004.
10. “MEMS Actuators for Space Applications,” Ajou University, Korea, August 2004.
9. “Large-Stroke Continuous Membrane Deformable Mirror for Medical Diagnosis,” NASA Medical Technology Summit, Pasadena, Feb. 11-13, 2003.
8. “Variable Control MEMS Valve for Gas/Liquid Systems,” EXPLORER WORKSHOP, Washington, DC, March 12, 2002.
7. “MEMS Adaptive Optics,” EXPLORER WORKSHOP, Washington, DC, March 12, 2002.
6. “A Wafer Transfer Technology for MEMS Adaptive Optics,” CfAO MEMS Workshop, CfAO, UC Berkeley, Feb. 2002.
5. “A Wafer Transfer Technique for MEMS Deformable Mirrors,” MEMS Workshop for Adaptive Optics, CfAO, UC Berkeley, Nov. 2000.
4. “Electrostatic Actuators and Micropumps,” Electronics and Telecommunication Research Institute, Korea, Oct. 1998.
3. “Reshaping-based Polysilicon and Single-Crystal Silicon Microactuator Technology,” Korea Advanced Institute of Science and Technology, Korea, June 1997.
2. “A Quantitative Determination of Stress Profiles along the Depth of Boron Doped Silicon Films,” Samsung Electronics, Korea, March 1996.

Conference Presentations
161. A. W. Cummings, A. Antidormi, G. Hader, and E. H. Yang, “Design and Analysis of a Quantum Graphene Gyroscope, ASME International Mechanical Engineering Congress and Exposition, New Orleans, LA, Oct. 29-Nov. 2, 2023.
160. M. Fang, S. Chen, and E. H. Yang, “Ferromagnetic Properties of Fe-doped Tungsten Diselenide Monolayers toward Diluted Magnetic Semiconductors,” ASME International Mechanical Engineering Congress and Exposition, New Orleans, LA, Oct. 29-Nov. 2, 2023.
159. Z. Tang, S. Chen, A. S. Sarkar, C. Osuala, S. Strauf, G. Hader, A. Cummings, C. Qu, and E. H. Yang, “CVD-Grown Graphene,” ASME International Mechanical Engineering Congress and Exposition, New Orleans, LA, Oct. 29-Nov. 2, 2023.
158. S. S. Mohajerani, S. Chen, E. H. Yang, and S. Strauf, “Quantum Emission from Oxygen-related Defects in Hexagonal Boron Nitride with Strongly Suppressed Phonon Sideband,” Bulletin of the American Physical Society, March 2023A.
157. S. Sarkar, S. Erickson, S. Chen, and E. H. Yang, “Chemical Exfoliation of Tin Monosulfides for Thin Film FETs on Flexible Substrates,” 2022 MRS Fall Meeting, Boston, MA, Nov. 27 - Dec. 2, 2022.
156. M. Fang, S. Chen, K. Kang, A. Mukherjee, A. N. Vamivakas, and E. H. Yang, “Ferromagnetic Properties of Fe-doped Tungsten Diselenide Monolayers toward Diluted Magnetic Semiconductors,” 2022 MRS Fall Meeting, Boston, MA, Nov. 27 - Dec. 2, 2022.
155. Z. Tang, S. Chen, A. S. Sarkar, N. Liu, S. Strauf, G. Hader, C. Qu, and E. H. Yang, “CVD-Grown Graphene Rings toward Aharonov-Bohm Oscillations,” 2022 MRS Fall Meeting, Boston, MA, Nov. 27 - Dec. 2, 2022.
154. C. I. Osuala, Z. Tang, E. H. Yang and C. Qu, “Aharonov-Bohm and quantum Hall interferometers in graphene rings,” 2022 MRS Fall Meeting, Boston, MA, Nov. 27 - Dec. 2, 2022.
153. S. Chen, Z. Tang, M. Fang, K. Kang, A. S. Sarkar, N. Liu, Y. Zhang, S. Strauf, G. Hader, and E. H. Yang, “Synthesis, Fabrication and Characterization of a Fe:MoS₂-based Magnetic Tunneling Junction,” 2022 MRS Fall Meeting, Boston, MA, Nov. 27 - Dec. 2, 2022.
87. A. W. Cummings, A. Antidormi, G. Hader, and E. H. Yang, “Numerical Study of a Quantum Graphene Gyroscope,” 2022 MRS Fall Meeting, Boston, MA, Nov. 27 - Dec. 2, 2022.
86. E. Easy, M. Fang, E. H. Yang, and X. Zhang, “Thermal Transport Properties of Iron-Doped MoS₂,” ASME International Mechanical Engineering Congress and Exposition, Columbus, OH, Oct. 30-Nov. 6, 2022
85. A. W. Cummings, A. Antidormi, G. Hader, and E. H. Yang, “Numerical Study of a Quantum Graphene Gyroscope,” ASME International Mechanical Engineering Congress and Exposition, Columbus, OH, Oct. 30-Nov. 6, 2022
152. A. S. Sarkar, S. Erickson, S. Chen, and E. H. Yang, “Chemical Exfoliation of Tin Monosulfides for Thin Film FETs on Flexible Substrates,” 2022 MRS Fall Meeting, Boston, MA, Nov. 27 - Dec. 2, 2022.
151. M. Fang, S. Chen, K. Kang, A. Mukherjee, A. N. Vamivakas, and E. H. Yang, “Ferromagnetic Properties of Fe-doped Tungsten Diselenide Monolayers toward Diluted Magnetic Semiconductors,” 2022 MRS Fall Meeting, Boston, MA, Nov. 27 - Dec. 2, 2022.
150. Z. Tang, S. Chen, A. S. Sarkar, N. Liu, S. Strauf, G. Hader, C. Qu, and E. H. Yang, “CVD-Grown Graphene Rings toward Aharonov-Bohm Oscillations,” 2022 MRS Fall Meeting, Boston, MA, Nov. 27 - Dec. 2, 2022.
149. C. I. Osuala, Z. Tang, E. H. Yang and C. Qu, “ Aharonov-Bohm and quantum Hall interferometers in graphene rings,” 2022 MRS Fall Meeting, Boston, MA, Nov. 27 - Dec. 2, 2022.
148. S. Chen, Z. Tang, M. Fang, K. Kang, A. S. Sarkar, N. Liu, Y. Zhang, S. Strauf, G. Hader, and E. H. Yang, “Synthesis, Fabrication and Characterization of a Fe:MoS2-based Magnetic Tunneling Junction,” 2022 MRS Fall Meeting, Boston, MA, Nov. 27 - Dec. 2, 2022.
147. A. W. Cummings, A. Antidormi, G. Hader, and E. H. Yang, “Numerical Study of a Quantum Graphene Gyroscope,” 2022 MRS Fall Meeting, Boston, MA, Nov. 27 - Dec. 2, 2022.
146. E. Easy, M. Fang, E. H. Yang, and X. Zhang, “Thermal Transport Properties of Iron-Doped MoS₂,” ASME International Mechanical Engineering Congress and Exposition, Columbus, OH, Oct. 30-Nov. 6, 2022.
145. A. W. Cummings, A. Antidormi, G. Hader, and E. H. Yang, “Numerical Study of a Quantum Graphene Gyroscope,” ASME International Mechanical Engineering Congress and Exposition, Columbus, OH, Oct. 30-Nov. 6, 2022
144. G. Hader, D. Kaplan, and E. H. Yang, “Computational Modeling of 2D Nanomechanical Resonators,” ASME International Mechanical Engineering Congress and Exposition, Columbus, OH, Oct. 30-Nov. 6, 2022.
143. E. H. Yang, “Synthesis, Nanofabrication and Characterization of 2D Magnetic Semiconductors for Magnetic Tunnel Junctions,” MS&T22: Materials Science & Technology, Pittsburgh, PA, Oct. 9-13, 2022.
142. M. Shah, P. Klement, S. Chatterjee, K. Kang, E. H. Yang, And Arash Rahimi-Iman, “Optical Properties of Encapsulated Transition-Metal Dichalcogenide Monolayers, Bilayers, and Heterostructures,” Annual Meeting of DPG and DPG Spring Meeting of the Atomic, Molecular, Plasma Physics and Quantum Optics Section (SAMOP), Rostock, June 2022
141. M. Shah, M. A. Nouh, E. H. Yang, and A. Rahimi-Iman, “Optical Properties of 2D Tungsten Disulfide/-Diselenide Heterobilayers,” SPP2244 Consortium of 2D Heterostructure Groups of the German Research Foundation, March 1, 2022
140. S. Chen, Z. Tang, M. Fang, K. Kang, and E. H. Yang, “Growth and Transfer of 2D Heterostructures with Fe:MoS2 toward Magnetic Tunneling Junctions,” ACS Spring Meeting, Hybrid Conference, March 20, 2022
139. S. Chen, M. Fang, K. Kang, S. Fu, and E. H. Yang, “Substitutional Fe Doping into MoS2, and WS2 and WSe2 Monolayers for Ferromagnetism,” ACS Spring Meeting, Hybrid Conference, March 20, 2022
138. A. Palumbo and E. H. Yang, “Late News: Flexible Glucose Biosensing via Carbon Nanotube-Based Electrodes on Elastomer Polymer Substrate,” 2021 MRS Fall Meeting, Virtual Conference, Nov. 30, 2021
137. A. Palumbo and E. H. Yang, “CNT-Based Flexible Electrodes Towards Sensors and Energy Storage,” 2021 MRS Fall Meeting, Virtual Conference, Nov. 30, 2021
136. S. Fu, M. Fang, Z. Tang, S. Chen, K. Kang, and E. H. Yang, “A Clean TEM Sample Preparation Technique for CVD-Grown TMD Monolayers,” 2021 MRS Fall Meeting, Virtual Conference, Dec. 6, 2021
135. S. Chen, Z. Tang, M. Fang, S. Fu, K. Kang, and E. H. Yang, “2D Heterostructures with Fe:MoS2 toward Magnetic Tunneling Junction,” 2021 MRS Fall Meeting, Virtual Conference, Dec. 6, 2021
134. S. Chen, Z. Tang, M. Fang, S. Fu, K. Kang, and E. H. Yang, “van der Waals Heterostructures with Magnetic Transition Metal Dichalcogenides toward Magnetic Tunneling Junction,” TechConnect World Innovation Conference and Expo, National Harbor, MD, Oct. 19, 2021
133. S. Chen, K. Kang, S. Fu, and E. H. Yang, “Substitutional doping of Fe into MoS2 and WS2 monolayers for magnetism,” 2021 MRS Spring Meeting, Virtual Conference, April 19, 2021
132. A. Palumbo, R. Zhang, G. Hader and E. H. Yang, “Stretchable Electrodes of Vertically Aligned Carbon Nanotubes towards Pressure Sensor and Supercapacitor,” NSF Workshop: New Frontiers of Thermal Transport, Virtual Conference, Dec. 2020
131. K. Kang, S. Fu, S. Chen, D. Datta, A. Rahimi-Iman, and E. H. Yang, “AA’ and AB stacked WS₂ homobilayers,” NSF Workshop: New Frontiers of Thermal Transport Virtual Conference, Virtual Conference, Dec. 2020
130. S. Fu, K. N. Kang, K. Shayan, A. Yoshimura, S. Dadras, X. Wang, L. H. Zhang, X. Li, S. Chen, N. Vamivakas, V. Meunier, S. Strauf and E. H. Yang, “Enabling Room Temperature Ferromagnetism in Monolayer MoS₂ via in Situ Iron-Doping,” NSF Workshop: New Frontiers of Thermal Transport, Virtual Conference, Dec. 2020
129. S. Fu, K. N. Kang, K. Shayan, A. Yoshimura, S. Dadras, X. Wang, L. H. Zhang, X. Li, S. Chen, N. Vamivakas, V. Meunier, S. Strauf and E. H. Yang, “Enabling Room Temperature Ferromagnetism in Monolayer MoS₂ via in Situ Iron-Doping,” 2020 MRS Fall Meeting, Boston, MA, Nov. 29 - Dec. 3, 2020
128. E. H. Yang, “Atomically Thin Magnetic Crystals,” MS&T Symposium, Pittsburg, PA, Oct. 5-7, 2020 (Virtual)
127. S. Fu, K. N. Kang, K. Shayan, A. Yoshimura, S. Dadras, X. Wang, L. H. Zhang, X. Li, S. Chen, N. Vamivakas, V. Meunier, S. Strauf and E. H. Yang, “Enabling Room Temperature Ferromagnetism in Monolayer MoS₂ via in Situ Iron-Doping,” ACS Spring 2020 National Meeting & Expo, March 22-26, 2020
126. S. Fu, K. Kang, K. Shayan, X. Wang, L. Zhang, X. Li, X. Tong, S. Chen, S. Strauf, and E. H. Yang, “Magnetic Iron Defect Centers in Molybdenum Disulfide Monolayers,” 2019 MRS Fall Meeting, Boston, MA, Dec. 1 - 6, 2019
125. S. Fu, K. Kang, X. Wang, L. Zhang, X. Li, X. Tong, S. Chen, and E. H. Yang, “Chemical Vapor Deposition Growth and Characterization of Iron-doped MoS₂ Monolayers,” ASME International Mechanical Engineering Congress and Exposition, Salt Lake City, UT, Nov. 2019
124. E. H. Yang, “Carbon Nanotubes and Conjugated Polymer Films for Tunable Surfaces and Flexible Electrodes,” International Conference on Nature Inspired Surface Engineering (NISE), Hoboken, NJ, June 12-14, 2019
123. E. H. Yang, “1D and 2D Materials and Flexible Substrates,” Collaborative Conference on Materials Research (CCMR), Koyang, Korea, June 3-7 2019
122. E. H. Yang, “1D and 2D Materials, and Flexible Substrates,” SPIE DDS, Micro- and Nanotechnology Sensors, Systems, and Applications X, Baltimore, MD, USA, April 2019
121. X. Wang, K. Kang, S. Fu, K. Godin, S. Chen, and E. H. Yang, “Effects of Wet Transfer on Photoluminescence of WS₂,” Bulletin of the American Physical Society, 64, March 2019
120. J. Xu, W. Xu, Y. Yuan, G. Gao, and E. H. Yang, “In Situ Regeneration of Oil Absorbent via Wettability Switch of Conjugated Polymer Surfaces,” Bulletin of the American Physical Society, 64, March 2019
119. S. Fu, K. Kang, X. Wang, S. Chen and E. H. Yang, “Low-Pressure Chemical Vapor Deposition Growth of Iron-doped MoS₂ Monolayers,” Bulletin of the American Physical Society, 64, March 2019
118. A. Palumbo, R. Zhang, K. Yan, G. Hader, J. Chang, and E. H. Yang, “A Stretchable and Bendable CNT-based Resistive Pressure Sensor,” Bulletin of the American Physical Society, 64, March 2019
117. G. Hader, D. Kaplan, G. Stone, V. Swaminathan, and E. H. Yang, “Graphene Growth on Uniaxial Tensile Strained Platinum Substrates,” Graduate Research Conference, Stevens Institute of Technology, Hoboken, NJ, Feb. 2019
116. G. Gao, Y. Yuan, J. Xu, and E. H. Yang, “Fabrication of 3D Porous Oil Absorbent Using 3D Printed PPy(DBS),” Graduate Research Conference, Stevens Institute of Technology, Hoboken, NJ, Feb. 2019
115Y. Yuan, G. Gao, J. Xu, and E. H. Yang, “Oil Absorption and Release Using Highly Porous Conjugated Polymer Structure,” Graduate Research Conference, Stevens Institute of Technology, Hoboken, NJ, Feb. 2019
114. Z. Zhang, S. Chen, K. Kang, S. Fu, and E. H. Yang, “Advanced Contact-Growth of WSe2 Monolayers,” Graduate Research Conference, Stevens Institute of Technology, Hoboken, NJ, Feb. 2019
113. A. Palumbo, S. Fu, R. Chang and E. H. Yang, “Influence of Local Spatial Parameters of Transition Metal Dichalcogenides on Cellular Adhesion,” 2018 MRS Fall Meeting, Boston, MA, Nov 25 – 30, 2018
112. E. H. Yang, “2D Materials, Flexible Substrates and Surfaces,” ASME International Mechanical Engineering Congress and Exposition, Pittsburg, PA, November 2018
111. E. H. Yang, K. Kang, K. Godin, X. Wang, J. Xu, S. Fu, R. Zhang, A. Palumbo, S. Chen, G. Hader, C. Cupo, K. Yan, and M. Wang, “2D Materials, Flexible Electrodes and Surfaces,” AiMES 2018 Meeting, Cancun, Mexico, September 30 - October 4, 2018.
110. J. Xu, S. Fu, W. Xu and E. H. Yang, “Self-Regenerating Oil Absorbent Via Wettability Switch Using Electrochemical Redox of Conjugated Polymer Surfaces,” AiMES 2018 Meeting, Cancun, Mexico, September 30 - October 4, 2018.
109. R. Zhang and E. H. Yang, “Flexible Electrodes and Sensors Insensitive to Lateral Strains for Electronic Skin,” AiMES 2018 Meeting, Cancun, Mexico, September 30 - 1084, 2018.
59. G. Hader, D. Kaplan, K. Mills, and E. H. Yang, “2D Nanosheet Synthesis and Applications,” 2018 Collaborative Conference on Materials Research (CCMR), Cheju, Korea, 25 - 29 June 2018
107. R. Zhang and E. H. Yang, “A Stretching/Bending-Insensitive Flexible Pressure Sensor with Carbon Nanotube-PDMS,” The 62nd International Conference on Electron, Ion, and Photon Beam Technology and Nanofabrication (EIPBN 2018), Puerto Rico, May 29 - June 1, 2018
106. R. Zhang and E. H. Yang, “All-Solid-State Stretchable Supercapacitors using Polypyrrole-CNT Hybrid Partially Embedded in PDMS,” The 62nd International Conference on Electron, Ion, and Photon Beam Technology and Nanofabrication (EIPBN 2018), Puerto Rico, May 29 - June 1, 2018
105. J. Xu, S. Fu, A. Palumbo, K. Yan, W. Xu, C.-H. Choi and E. H. Yang, “CNT-Embedded Conjugated Polymer Mesh toward Oil/Water Separation,” Stevens Innovation Expo, Hoboken, NJ, April 2018
104. R. Zhang, J. Ding, A. Palumbo, G. Hader, K. Yan, F. Fisher, R. Chang, and E. H. Yang, “1D/2D Material Applications for Flexible Devices and Bio-Applications,” Stevens Innovation Expo, Hoboken, NJ, April 2018
103. X. Wang, S. Fu, S. Chen, P. Zhu, K. Godin, K. Kang, M. Wang and E. H. Yang, “Synthesis and Characterization of 2-Dimensional Materials – Art of Origami,” Stevens Innovation Expo, Hoboken, NJ, April 2018
102. K. Kang, K. Ghatak, S. Fu, X. Wang, S. Chen, D. Datta and E. H. Yang, “A Study on the Growth of WS₂ Homobilayers with Controlled AA and AB Stacking using Two-step van der Waals Epitaxy,” Graphene & 2D Materials International Conference and Exhibition (GrapheneUS), New York, NY, Feb. 22-23, 2018
101. G. Hader, D. Kaplan, G. Stone, V. Swaminathan, and E. H. Yang, “Graphene Growth on Uniaxial Tensile Strained Platinum Substrates,” Graphene & 2D Materials International Conference and Exhibition (GrapheneUS), New York, NY, Feb. 22-23, 2018
100. G. Hader, D. Kaplan, G. Stone, V. Swaminathan, and E. H. Yang, “Graphene Growth on Uniaxial Tensile Strained Platinum Substrates,” Graduate Research Conference, Stevens Institute of Technology, Hoboken, NJ, Feb. 2018
99. A. Palumbo, S. Fu, R. Chang and E. H. Yang, “Enhanced Cellular Morphology and Adhesion on Transition Metal Dichalcogenide Surfaces,” Graduate Research Conference, Stevens Institute of Technology, Hoboken, NJ, Feb. 2018
98. K. Ghatak, K. Kang, S. Fu, X. Wang, S. Chen, E. H. Yang, and D. Datta, “Computational Modeling of the Epitaxial Growth of WS₂-WS₂ Homobilayer and WS₂-WSe₂ Heterobilayer,” 2017 MRS Fall Meeting, Boston, MA, Nov 26 – Dec. 1, 2017
97. G. Hader, D. Kaplan, G. Stone, V. Swaminathan, and E. H. Yang, “Graphene Growth on Uniaxial Tensile Strained Platinum Substrates,” 2017 MRS Fall Meeting, Boston, MA, Nov 26 – Dec. 1, 2017
96. S. Fu, K. Kang, X. Wang, A. Palumbo and E. H. Yang, “One-Step Synthesis of WS2/MoS2 Heterostructures via Microfabrication with Differing Layers of Transition Metal Oxides,” 2017 MRS Fall Meeting, Boston, MA, Nov 26 – Dec. 1, 2017
95. S. Chen, K. Kang, X. Wang, S. Fu, and E. H. Yang, “Two-Step Contact Growth of Vertical WSe₂/MoSe₂ Heterostructures,” 2017 MRS Fall Meeting, Boston, MA, Nov 26 – Dec. 1, 2017
94. K. Yan, J. Xu, W. Xu and E. H. Yang, “Reduced Coffee Ring Effect by Tunable Wetting of PPy(DBS) Surfaces,” 2017 MRS Fall Meeting, Boston, MA, Nov 26 – Dec. 1, 2017
93. R. Zhang, J. Ding, Chao Liu and E. H. Yang, “All-Solid-State Flexible Supercapacitors Based on Carbon Nanotube-PDMS Structures,” 2017 MRS Fall Meeting, Boston, MA, Nov 26 – Dec. 1, 2017
92. X. Wang, K. Kang, G. Hader, and E. H. Yang, “Location-Specific Growth and Aligned Transfer of Arrayed Single-Crystalline MoS₂ and WS₂ Monolayers,” 2017 MRS Fall Meeting, Boston, MA, Nov 26 – Dec. 1, 2017
91. A. Palumbo, S. Fu, R. Chang and E. H. Yang, “Enhanced Cellular Morphology and Adhesion on Transition Metal Dichalcogenide Surfaces,” 2017 MRS Fall Meeting, Boston, MA, Nov 26 – Dec. 1, 2017
90. K. Kang, K. Ghatak, S. Fu, X. Wang, S. Chen, D. Datta and E. H. Yang, “A Study on the Growth of WS₂ Homobilayers with Controlled AA and AB Stacking using Two-step van der Waals Epitaxy,” 2017 MRS Fall Meeting, Boston, MA, Nov 26 – Dec. 1, 2017
89. K. Kang, X. Wang, S. Fu, S. Chen, and E. H. Yang, “Effects of Electric Field on TMD Oxidation,” 2017 MRS Fall Meeting, Boston, MA, Nov 26 – Dec. 1, 2017
88. G. Hader, D. Kaplan, G. Stone, V. Swaminathan, and E. H. Yang, “Graphene Growth on Uniaxial Tensile Strained Platinum Substrates,” ASME International Mechanical Engineering Congress and Exposition, Tampa, FL, Nov 3-9, 2017
87. Y. Jiang, J. Xu, E. H. Yang, and C.-H. Choi, “Effects of Nanostructures on Tunable Droplet Mobility on Conjugated Polymer Surfaces,” ACS Colloid & Surface Science Symposium, The City College of New York, July 9-12, 2017
86. W. Xu, A. Palumbo, J. Xu, Y. Jiang, C.-H. Choi and E. H. Yang, “On-demand Capture and Release of Organic Microdroplets on Surfactant-doped Polypyrrole Surfaces,” ACS Colloid & Surface Science Symposium, The City College of New York, July 9-12, 2017
85. W. Xu, J. Xu, X. Li, Y. Tian, C.-H. Choi and E. H. Yang, “Lateral Actuation of an Organic Droplet on Conjugate Polymer Coatings,” ACS Colloid & Surface Science Symposium, The City College of New York, July 9-12, 2017
84. J. Xu, S. Fu, W. Xu and E. H. Yang, “Self-cleaning Polymer Mesh as Adsorbent for Oil/Water Separation,” ACS Colloid & Surface Science Symposium, The City College of New York, July 9-12, 2017
83. R. Zhang, J. Ding and E. H. Yang, “Facile and High-Throughput Fabrication of Carbon Nanotube Carpet-PDMS Structures toward Flexible Supercapacitors,” The 61st International Conference on Electron, Ion, and Photon Beam Technology and Nanofabrication (EIPBN 2017), Orlando, FL, USA, May 30 – June 2, 2017
82. A. Palumbo, F. Tourlomousis, R. Chang and E. H. Yang, “Transition Metal Dichalcogenides as Cell Culture Platforms,” The 61st International Conference on Electron, Ion, and Photon Beam Technology and Nanofabrication (EIPBN 2017), Orlando, FL, USA, May 30 – June 2, 2017
81. S. Lippert, L. M. Schneider, D. Renaud, K. Kang, O. Ajayi, M. U. Halbich, O. M. Abdulmunem, X. Lin, J. Kuhnert, K. Hassoon, S. Edalati-Boostan, Y. D. Kim, W. Heimbrodt, E. H. Yang, J. C. Hone, and A. Rahimi-Iman, "Influence of the Substrate Material on the Optical Properties of Tungsten Diselenide Monolayers," CLEO, San Jose, CA, USA, May 14-17, 2017.
80. S. H. Kim, E. Barre, Ö. B. Aslan, T. Heinz, Y. D. Kim, D. Seo, J. Hone, K. Kang, and E. H. Yang, “Charge and Spin-Valley Transfer in Transition Metal Dichalcogenides Heterostructure,” Bulletin of the American Physical Society, 62, March 2017
79. A. Dadgar, A. Pasupathy, E. Santos, M. Pimenta, E. H. Yang, K. N. Kang, D. Scullion, P. Rice, and I. Herman, “Evolution of Phonon and Electronic Structures of Transition Metal Dichalcogenides as a Function of Large Uniaxial Strain,” Bulletin of the American Physical Society, 62, March 2017
78. R. Zhang, J. Ding and E. H. Yang, “Facile and High-Throughput Fabrication of Carbon Nanotube Carpet-PDMS Structures toward Flexible Supercapacitors,” Graduate Research Conference, Stevens Institute of Technology, Hoboken, NJ, Feb. 17-18, 2017
77. G. Hader and E. H. Yang, “Synthesis of Two-dimensional Graphene on Uniaxial Tensile Strained Platinum Substrates,” Graduate Research Conference, Stevens Institute of Technology, Hoboken, NJ, Feb. 17-18, 2017
76. S. Fu, K. Kang, C. Ding and E. H. Yang, “Chemical Vapor Disposition Grown Vertically Aligned Carbon Nanotubes on Curved Surface,” Graduate Research Conference, Stevens Institute of Technology, Hoboken, NJ, Feb. 17-18, 2017
75. S. Fu, K. Kang and E. H. Yang, “Doping of Foreign Atoms into Transition Metal Dichalcogenide Monolayer,” Graduate Research Conference, Stevens Institute of Technology, Hoboken, NJ, Feb. 17-18, 2017
74. A. Palumbo, F. Tourlomousis, R. Chang and E. H. Yang, “Transition Metal Dichalcogenides as Cell Culture Platforms,” Graduate Research Conference, Stevens Institute of Technology, Hoboken, NJ, Feb. 17-18, 2017
73. K. Godin and E. H. Yang, “Photoluminescent Signature of Defects in Monolayer Tungsten Disulfide,” Graduate Research Conference, Stevens Institute of Technology, Hoboken, NJ, Feb. 17-18, 2017
72. J. Xu, S. Fu, W. Xu and E. H. Yang, "Self-cleaning Polymer Membrane with Carbon Nanofibers and Nanowires for Oil/water Treatment," Graduate Research Conference, Stevens Institute of Technology, Hoboken, NJ, Feb. 17-18, 2017
71. X. Wang, K. Kang, S. Chen, R. Du, K. Godin and E. H. Yang, “Localized Growth and Target Transfer of Single-Crystalline Transition Metal Dichalcogenide Monolayers,” Graduate Research Conference, Stevens Institute of Technology, Hoboken, NJ, Feb. 17-18, 2017
70. J. Ding, S. Fu, E. Boon, F. T. Fisher and E. H. Yang, “Vertically Aligned Carbon Nanotube-Supported Graphene as Stretchable Electrodes,” Graduate Research Conference, Stevens Institute of Technology, Hoboken, NJ, Feb. 17-18, 2017
69. K. Godin, K. Kang, A. Palumbo and E. H. Yang, “Crystal-Substrate Interactions in Growth of Monolayer Transition Metal Dichalcogenides,” Graduate Research Conference, Stevens Institute of Technology, Hoboken, NJ, Feb. 17-18, 2017
68. R. Du, K. Kang, K. Godin, S. Chen and E. H. Yang, “Epitaxial Growth of TMD Monolayers on Graphene and hBN Substrates,” Graduate Research Conference, Stevens Institute of Technology, Hoboken, NJ, Feb. 17-18, 2017
67. S. Chen, R. Du, K. Kang, X. Wang and E. H. Yang, “Epitaxial Growth of Disparate Vertical Heterostructures,” Graduate Research Conference, Stevens Institute of Technology, Hoboken, NJ, Feb. 17-18, 2017
66. W. Xu, J. Xu, A. Palumbo, Y. Jiang, C.-H. Choi, and E. H. Yang, “Tunable Wetting and Liquid Adhesion on Smart Conjugated Polymer for Droplets Manipulation,” 6th Northeast Complex Fluids and Soft Matter Workshop, Stevens Institute of Technology, Hoboken, NJ, January 13, 2017
65. J. Xu, S. Fu, W. Xu, and E. H. Yang, “Self-Cleaning Polymer Membrane with Carbon Nanotubes for Oil/Water Treatment,” 6th Northeast Complex Fluids and Soft Matter Workshop, Stevens Institute of Technology, Hoboken, NJ, January 13, 2017
64. K. Godin and E. H. Yang, “Photoluminescent Signature of Defects in Monolayer Tungsten Disulfide,” 2016 MRS Fall Meeting, Boston, MA, Nov 28 – Dec. 2, 2016
63. J. Xu, S. Fu, W. Xu and E. H. Yang, "Self-cleaning Polymer Membrane with Carbon Nanofibers and Nanowires for Oil/water Treatment," 2016 MRS Fall Meeting, Boston, MA, Nov 28 – Dec. 2, 2016
62. C. Cupo, K. Godin and E. H. Yang, “Valid Step Height Measurements of Transition Metal Dichalcogenide Monolayers,” 2016 MRS Fall Meeting, Boston, MA, Nov 28 – Dec. 2, 2016
61. X. Wang, S. Chen, R. Du, K. Kang, K. Godin and E. H. Yang, “Localized Growth and Target Transfer of Single-Crystalline Transition Metal Dichalcogenide Monolayers,” 2016 MRS Fall Meeting, Boston, MA, Nov 28 – Dec. 2, 2016
60. J. Ding, S. Fu, E. Boon, F. T. Fisher and E. H. Yang, “Vertically Aligned Carbon Nanotube-Supported Graphene as Stretchable Electrodes,” 2016 MRS Fall Meeting, Boston, MA, Nov 28 – Dec. 2, 2016
59. K. Godin, K. Kang, A. Palumbo and E. H. Yang, “Crystal-Substrate Interactions in Growth of Monolayer Transition Metal Dichalcogenides,” 2016 MRS Fall Meeting, Boston, MA, Nov 28 – Dec. 2, 2016
58. R. Du, K. Kang, K. Godin, S. Chen and E. H. Yang, “Epitaxial Growth of TMD Monolayers on Graphene and hBN Substrates,” 2016 MRS Fall Meeting, Boston, MA, Nov 28 – Dec. 2, 2016
57. S. Chen, R. Du, K. Kang, X. Wang and E. H. Yang, “Epitaxial Growth of Disparate Vertical Heterostructures,” 2016 MRS Fall Meeting, Boston, MA, Nov 28 – Dec. 2, 2016
56. J. Xu, S. Fu, Y. Jiang, W. Xu, C.-H. Choi, E. H. Yang, "Self-cleaning Polymer Membrane with Carbon Nanotubes for Oil/water Treatment," ASME International Mechanical Engineering Congress and Exposition, Phoenix, AZ, November 11-17, 2016
55. J. Ding, S. Fu, E. Boon, F. T. Fisher and E. H. Yang, “Vertically Aligned Carbon Nanotube-Supported Graphene as Stretchable Electrodes,” ASME International Mechanical Engineering Congress and Exposition, Phoenix, AZ, November 11-17, 2016
54. A. Dadgar, I. Herman, D. Wang, K. N. Kang and E. H. Yang, and A. Pasupathy, “Strain Engineering of Transition Metal Dichalcogenides,” APS Meeting, Baltimore, MD, March 2016
53. G. Arefe, N. Finney, D. Seo, Y. D. Kim, D. Chang, X. Cui, K. N. Kang, S.-K. Jeong, S. H. Chun, E. H. Yang, and J. Hone, “WSe₂ heterostructures with p-type multi-layer graphene contacts,” APS Meeting, Baltimore, MD, March 2016
52. A. Palumbo, J. Xu and E. H. Yang, “Effects of electropolymerization parameters of PPy(DBS) surfaces on the droplet flattening behaviors during redox,” The 5th Northeast Complex Fluids and Soft Matter (NCS) workshop, NYU Tandon School of Engineering, NY, January 15, 2016.
51. L. Shultz and E. H. Yang, “Analysis of Surface Properties of PPy(DBS) in Different Redox States,” NJ Tech Summer Intern and Research Project, TRI Research, Princeton, NJ, August 12, 2015
50. J. Ding, K. Du, F. T. Fisher, and E. H. Yang, “Transferring Graphene Nanostructures onto a Transparent Flexible Substrate,” The 59th International Conference on Electron, Ion, and Photon Beam Technology and Nanofabrication (EIPBN 2015), San Diego, California USA, May 26-29 2015
49. Y. Kim, K. Kumar, F. T. Fisher and E. H. Yang, “Controlled CVD Growth of Carbon Nanotubes on Monolayer Graphene Substrates, ECS and SMEQ Joint International Meeting, Cancun, Mexico, October 5-10, 2014
48. W. Xu, C.-H. Choi, and E. H. Yang, “Microdroplet Manipulation at Ultra-Low Voltages on Conjugated Polymer Using Electrochemical Tunable Wetting, ECS and SMEQ Joint International Meeting, Cancun, Mexico, October 5-10, 20
47. A. Palumbo and E. H. Yang, “Switchable Surface Properties of Doped Polypyrrole,” Workshop on Nanomedicine and Tumor Engineering for Cancer Diagnosis and Therapy, Stevens Institute of Technology, Hoboken, NJ, September 29, 2014
46. N. Gao, H. Wang and E. H. Yang, “Ferromagnetic Nanowires Functionalized with Antibody for Cell Separation,” Workshop on Nanomedicine and Tumor Engineering for Cancer Diagnosis and Therapy, Stevens Institute of Technology, Hoboken, NJ, September 29, 2014
45. P. Wang, J. Ding, E. H. Yang and P. Abadi, “Mechanics of Carbon Nanotube Forest Patterns,” ASME International Mechanical Engineering Congress and Exposition, Montreal, Canada, November 14-20, 2014
44. J. Xu, W. Xu and E. H. Yang, “Study of Microdroplet Deformation on Doped Polypyrrole Surfaces”, ASME International Mechanical Engineering Congress and Exposition, Montreal, Canada, November 14-20, 2014
43. G. Hader and E. H. Yang, “Numerical Modeling Graphene NEMS Resonator Boundary Conditions for Strain Engineering to Improve Quality Factor,” ASME International Mechanical Engineering Congress and Exposition, Montreal, Canada, November 14-20, 2014
42. K. Kang, K. Godin, and E. H. Yang, “Growth of WS₂ Monolayers: Nanoislands to Microislands,” ASME International Mechanical Engineering Congress and Exposition, Montreal, Canada, November 14-20, 2014
41. J. Ding, K. Du, I. Wathuthanthri, C.-H. Choi, F. T. Fisher, and E. H. Yang, “Fabrication of Large-Area Graphene Nanomesh Using Interference Lithography,” ASME International Mechanical Engineering Congress and Exposition, Montreal, Canada, November 14-20, 2014
40. W. Xu, X. Li, Y. Tian, H. Bisaria, A. Palumbo, E. Cook, C.-H. Choi, and E. H. Yang, “Manipulation of Microdroplets at Ultra-Low Voltages on Conjugated Polymer,” ASME International Mechanical Engineering Congress and Exposition, Montreal, Canada, November 14-20, 2014
39. W. Xu, C.-H. Choi and E. H Yang, “Tunable Wetting and Adhesion of Doped Polypyrrole Surface for Ultra-Low-Voltage Manipulation of Microdroplets,” ACS 2014 Colloid & Surface Science Symposium, University of Pennsylvania. Philadelphia, PA, June 22-25, 2014
38. W. Xu, X. Li, Y. Tian, H. Bisaria, C.-H. Choi, and E. H. Yang, “Transportation of a Microdroplet at Ultra-Low Voltages by Tunable Wetting on Conjugated Polymer Electrodes,” International Symposium on Contact Angle, Wettability and Adhesion, Bethlehem, PA, June 16-18, 2014
37. J. Ding, K. Du, I. Wathuthanthri, C.-H. Choi, F. T. Fisher, and E. H. Yang, “Patterning of Large-Area Graphene Nanostructures via Holographic Lithography and O2 Plasma Etching,” The 58^th International Conference on Electron, Ion, and Photon Beam Technology and Nanofabrication, Washington DC, May 27-30, 2014
36. W. Xu, X. Li, Y. Tian, H. Bisaria, C.-H. Choi, and E. H. Yang, “Droplet Transportation at Ultra-Low Voltages by Tunable Wetting on Conjugated Polymer Electrodes,” Northeast Complex Fluids and Soft Matter Workshop, Piscataway, NJ, October 25, 2013
35. O. Sul, M. Begliarbekov, K.-I. Sasaki, E. H. Yang, S. Strauf, “Controlling the Chirality of Graphene’s edges using Polarization Selective Laser Annealing,” Graphene 2012, Brussels, Belgium, April 10-13, 2012
34. O. Sul, M. Belgiarbekov, J. Santanello, N. Ai, X. Zhang, E. H. Yang, and S. Strauf, “Fluorescence Quenching by Local Electronic States around Graphene Antidot Superlattices” Nano Korea Symposium, Kintex, Seoul, Republic of Korea, August 24~26, 2011
33. K. Kumar, Y. Kim, F. Fisher and E. H. Yang, “Graphene-CNT-Graphene Towards 3-D Multi-Stack Graphene-CNT Architectures for Supercapacitor Applications,” MFG Workshop, Napa, CA, August 2011
32. M. Begliarbekov, O. Sul, S. Kalliakos, E. H. Yang, and S. Strauf, “Identifying edge chirality of graphene using polarization-resolved μ-Raman spectroscopy,” Conference on Lasers and Electro-Optics: Laser Science to Photonic Applications (CLEO), MD, May 1~6, 2011
31. Y. Kim, K. Kumar, F. Fisher and E. H. Yang, “Vertical Carbon Nanotube Arrays on Graphene for Supercapacitor Applications,” Nature Graphene Conference, Boston, MA, May 2011.
30. M. Belgiarbekov, O. Sul, J. Santanello, N. Ai, X. Zhang, E. H. Yang, and S. Strauf, “Localized States and Resultant Band Bending in Graphene Antidot Superlattices,” Nature Graphene Conference, Boston, MA, May 2011
29. K. Kumar, O. Sul, Y. T. Tsai, S. Strauf, F. Fisher, D. S. Choi and E. H. Yang, “Nanoscale Graphene Lithography Using an Atomic Force Microscope,” Graphene Week, Maryland, MD, April 2010.
28. O. Sul, M. Begliarbekov, C. Tsai, Y. Kim, V. Patel, S. Strauf, and E. H. Yang, “CVD- assisted Atomically Precision Cutting of Graphene Strips with Specific Boundaries,” Graphene Week, Maryland, MD, April 2010.
27. M. Begliarbekov, O. Sul, C. Tsai, N. Ai, E. H. Yang and Stefan Strauf, “Observation of Klein Tunneling in Top-Gated Graphene Transistors,” Graphene Week, Maryland, MD, April 2010
26. K. Kumar, O. Sul, Y. T. Tsai, S. Strauf, F. Fisher, D. S. Choi and E. H. Yang, “Nanoscale Graphene and Carbon Nanotube Lithography using an Atomic Force Microscope,” ASME International Mechanical Engineering Congress and Exposition, Lake Buena Vista, FL, Nov 2009
25. M. Belgiarbekov, O. Sul, N. Ai, C. Tsai, J. Hereaux, E. H. Yang, and S. Strauf, “Characterization of Graphitic thin films and top-gated Klein transistors,” NYAS Gotham-Metro, Condensed Matter meeting, 2010.
24. M. Begliarbekov, O. Sul, N. Ai, Q. Song, S. Kalliakos, C. Tsai, K. Kumar, J. Heureaux, E. H. Yang, S. Strauf, “Quantum transport in graphitic nanostructures,” GK-12 Conference, Washington DC, USA, 2010.
23. S. W. Lee, S. S. Lee and E. H. Yang, “Field Emission from Graphene Structures for Vacuum Transistor Applications,” ASME International Mechanical Engineering Congress and Exposition, Lake Buena Vista, FL, Nov 2009
22. P. A. Huang and E. H. Yang, “MEMS Thruster System for CubeSat Orbital Maneuver Applications,” ASME International Mechanical Engineering Congress and Exposition, Lake Buena Vista, FL, Nov 2009
21.O. Sul, S. Jang and E. H. Yang, “Characterization of Thermomechanical Properties of Polypyrrole Nanowires,” ASME International Mechanical Engineering Congress and Exposition, Lake Buena Vista, FL, Nov 2009
20. O. Su, E. H. Yang, T. Xu, R. M. Morgan, Z. Chang, “Active Membrane using Electrostrictive Graft Elastomer for Deployable and Lightweight Mirrors,” SPIE Smart Structures and Materials and NDE for Health Monitoring and Diagnostics, San Diego, California USA, 18 – 22 March 2007

Conference Papers

87. Z. Tang, S. Chen, A. S. Sarkar, C. Osuala, S. Strauf, G. Hader, A. Cummings, C. Qu, and E. H. Yang, “Aharonov-Bohm Oscillations in CVD-Grown Graphene Rings at 4K,” IEEE Nanotechnology Conference, Jeju Island, Korea, July 2-5, 2023
86. E. Easy, M. Fang, E. H. Yang, and X. Zhang, “Thermal Transport Properties of Iron-Doped MoS₂,” ASME International Mechanical Engineering Congress and Exposition, Columbus, OH, Oct. 30-Nov. 6, 2022
85. A. W. Cummings, A. Antidormi, G. Hader, and E. H. Yang, “Numerical Study of a Quantum Graphene Gyroscope,” ASME International Mechanical Engineering Congress and Exposition, Columbus, OH, Oct. 30-Nov. 6, 2022
84. G. Hader, D. Kaplan, and E. H. Yang, “Computational Modeling of 2D Nanomechanical Resonators,” ASME International Mechanical Engineering Congress and Exposition, Columbus, OH, Oct. 30-Nov. 6, 2022
83. M. A. Nouh, M. Shah, L. M. Schneider, M. Koch, K. Kang, E. H. Yang and A. Rahimi-Iman, “Charge-transfer excitons and moiré states in monolayered WSe₂/WS₂ heterostructure,” International Meeting on Advanced Materials (IMAM-2021), Hammamet, Tunisia, June 28-30 -2021.
82. A. Palumbo, R. Zhang, G. Hader and E. H. Yang, “Stretchable Electrodes of Vertically Aligned Carbon Nanotubes towards Pressure Sensor and Supercapacitor,” The 34th International Conference on Micro Electro Mechanical Systems (IEEE MEMS 2021) Virtual Conference, Jan. 25-29, 2021.
81. Y. Wang, Y. Gao, D. Yan, S. M. Goushehgir, E. H. Yang, B. Xu, X. Zhang, “Thermal Conductivities and Interfacial Thermal Conductance of 2D WSe₂,” 2020 IEEE 15th International Conference on Nano/Micro Engineered and Molecular System (NEMS), Sept. 27-30, 2020
80. X. Wang, K. Kang, S. Fu, K. Godin, S. Chen, and E. H. Yang, “Effects of Wet Transfer on Photoluminescence of WS₂,” NSTI Nanotechnology Conference and Expo, NSTI-Nanotech, Boston, MA, June 17-19, 2019
79. A. Palumbo, R. Zhang, K. Yan, G. Hader, J. Chang, and E. H. Yang, “Flexible Pressure Sensor of Carbon Nanotubes Partially Embedded in Polydimethylsiloxane (PDMS),” NSTI Nanotechnology Conference and Expo, NSTI-Nanotech, Boston, MA, June 17-19, 2019
78. L. M. Schneider, J. Kuhnert, S. Schmitt, U. Huttner, T. Strouken, S. W. Koch, W. Heimbrodt, K. Kang, S. Fu, X. Wang, E. H. Yang, and A. Rahimi-Iman “Spin-Layer- and Spin-Valley-Locking due to symmetry in differently-stacked Tungsten Disulfide Bilayers,” CLEO: Laser Science to Photonic Applications, San Jose, CA, May 2019
77. L. M. Schneider, J. Kuhnert, S. Schmitt, U. Huttner, T. Strouken, S. W. Koch, W. Heimbrodt, K. Kang, S. Fu, X. Wang, E. H. Yang, and A. Rahimi-Iman, “Optical Valleytronic Properties of CVD-grown AA' and AB Stacked Tungsten Disulfide Bilayers,” Annual Meeting of DPG and DPG Spring Meeting of the Atomic, Molecular, Plasma Physics and Quantum Optics Section (SAMOP), Rostock, March 10-15, 2019
76. R. Zhang and E. H. Yang, “A Stretching/Bending-Insensitive Flexible Pressure Sensor with Carbon Nanotube-PDMS,” 2018 TechConnect World Innovation Conference and Expo, Anaheim, CA, May 13-16, 2018.
75. R. Zhang and E. H. Yang, “All-Solid-State Stretchable Supercapacitors using Polypyrrole-CNT Hybrid Partially Embedded in PDMS,” 2018 TechConnect World Innovation Conference and Expo, Anaheim, CA, May 13-16, 2018
74. L. M. Schneider, J. Kuhnert, S. Lippert, D. Renaud, W. Heimbrodt, O. Ajayi, Y. D. Kim, J. C. Hone, K. Kang, E. H. Yang, and A. Rahimi-Iman, “Density-dependent Excitonic Properties and Dynamics in 2D Heterostructures consisting of Boron Nitride and Monolayer or few-layer Tungsten Diselenide,” SPIE Defense and Security Symposium, Micro- and Nanotechnology Sensors, Systems, and Applications X, Orlando, Florida, USA, April 2018 Invited paper
73. E. H. Yang, K. Kang, K. Godin, X. Wang, S. Fu, and S. Chen, “Controlled Growth of 2D Heterostructures and Prevention of TMD Oxidation,” SPIE Defense and Security Symposium, Micro- and Nanotechnology Sensors, Systems, and Applications X, Orlando, Florida, USA, April 2018 Invited paper
72. S. Lippert, L. M. Schneider, D. Renaud, K. Kang, O. Ajayi, M. U. Halbich, O. M. Abdulmunem, X. Lin, J. Kuhnert, K. Hassoon, S. Edalati-Boostan, Y. D. Kim, W. Heimbrodt, E. H. Yang, J. C. Hone, and A. Rahimi-Iman, "Influence of the Substrate Material on the Optical Properties of Tungsten Diselenide Monolayers," 25th Int. Symp. “Nanostructures: Physics and Technology,” Saint Petersburg, Russia, June 26–July 1, 2017
71. R. Zhang, J. Ding and E. H. Yang, “Facile and High-Throughput Fabrication of Carbon Nanotube Carpet-PDMS Structures toward Flexible Supercapacitors,” Technical Proceedings of the 2017 NSTI Nanotechnology Conference and Expo, NSTI-Nanotech, Washington, DC, May 14-17, 2017
70. A. Palumbo, F. Tourlomousis, R. Chang and E. H. Yang, “Transition Metal Dichalcogenides as Cell Culture Platforms,” Technical Proceedings of the 2017 NSTI Nanotechnology Conference and Expo, NSTI-Nanotech, Washington, DC, May 14-17, 2017
69. S. Lippert, L. M. Schneider, D. Renaud, K. Kang, O. Ajayi, M. U. Halbich, O. M. Abdulmunem, X. Lin, J. Kuhnert, K. Hassoon, S. Edalati-Boostan, Y. D. Kim, W. Heimbrodt, E. H. Yang, J. C. Hone, and A. Rahimi-Iman, "Influence of the Substrate Material on the Optical Properties of Tungsten Diselenide Monolayers," CLEO: Science and Innovations, San Jose, CA, May 2017
68. F. T. Fisher, R. S. Besser, K. Sheppard, C.-H. Choi, and E. H. Yang, “An Approach for Introducing Concepts of Nanotechnology within the Undergraduate Curriculum,” ASEE Mid-Atlantic Section Fall 2014 Conference, November 14-15, 2014.
67. W. Xu, X. Li, A. Palumbo, C.-H. Choi, and E. H. Yang, “Bi-Directional Switching of Microdroplet Adhesion on Doped Polypyrrole Microstructures,” Hilton Head Workshop 2014: A Solid-State Sensors, Actuators and Microsystems Workshop, Hilton Head Island, SC, June 8-12, 2014
66. W. Xu, Y. Tien, H. Bisaria, P. Ahn, Y.-T. Tsai, C.-H. Choi, and E. H. Yang, “Transportation of a Liquid Droplet at Ultra-Low Voltages by Tunable Wetting on Conjugated Polymer Electrodes,” IEEE Int. Conf. Solid-State Sensors and Actuators (Transducers '13), Spain, June 2013
65. K. Kumar, Y.-S. Kim, Y. Tian, Andreas Pallikaras, and E. H. Yang, “The Effect of Thermal Annealing Processes on Graphene,” Technical Proceedings of the 2013 NSTI Nanotechnology Conference and Expo, NSTI-Nanotech, National Harbor, Maryland, May 12-16, 2013
64. W. Xu, Y. Tian, H. Bisaria, P. Ahn, X. Li, Y.-T. Tsai, C.-H. Choi, and E. H. Yang, “A Low-Voltage Droplet Manipulation via Tunable Wetting on a Polypyrrole (DBS) Surface,” Technical Proceedings of the 2013 NSTI Nanotechnology Conference and Expo, NSTI-Nanotech, National Harbor, Maryland, May 12-16, 2013
63. Y.-S. Kim, K. Kumar, X. Li, F.T. Fisher, and E. H. Yang, “Fabrication and Characterization of 3-D Graphene-CNT Architectures Towards Supercapacitor Applications,” TechConnect World 2013 Conference and Expo, National Harbor, Maryland, May 12-16, 2013
62. Y.-T. Tsai, C.-H. Choi, E. H. Yang, “Water Droplet Manipulation by Tunable Wetting on Smart Polymer at Ultra-Low Voltages,” The 16^th International Conference on Miniaturized Systems for Chemistry and Life Sciences (m-TAS 2012), Okinawa, Japan, Oct. 28-Nov. 1, 2012
61. Y.-T. Tsai, C.-H. Choi, E. H. Yang, “Ultra-low-voltage droplet manipulation via tunable wetting of polypyrrole polymers for digital microfluidics,” Proceedings of the Eighth KSME-JSME Thermal and Fluids Engineering Conference, Incheon, Korea, March 18-21, 2012
60. D. Barth, J. Heureaux, B. Pilapil, P. Ponce De Leon, K. Zhao, E. H. Yang, “Microchannel for intraocular pressure relief and glaucoma treatment,” Technical Proceedings of the 2011 NSTI Nanotechnology Conference and Expo, NSTI-Nanotech, Volume 2, pp. 524-527, 2011
59. S. Strauf and E. H. Yang, “Graphene Optoelectronics based on Antidot Superlattices,” SPIE Defense and Security Symposium, Micro- and Nanotechnology Sensors, Systems, and Applications, Conference, Orlando, FL, April 2011. Invited paper
58. E. H. Yang, “Engineered Carbon Nanotubes and Graphene for Nanoelectronics and Nanomechanics,” SPIE Defense and Security Symposium, Micro- and Nanotechnology Sensors, Systems, and Applications, Conference, Orlando, FL, April 2010. Invited paper [SPIE Highlight In the News, June 2010]
57. E. H. Yang, “Engineered Nanowires, Carbon Nanotubes and Graphene for Sensors, Actuators and Electronics,” SPIE MEMS-MOEMS, San Francisco, Jan. 2010. Invited paper [Published in Reliability Special II, Journal of Micro/Nanolithography, MEMS, and MOEMS (JM3), 9 (04), 041103, 2010]
56. K. Kumar and E. H. Yang, “Nanoscale Graphene Lithography Using an Atomic Force Microscope,” TechConnect World Conference and Expo 2010, Anaheim, California, June 21-25, 2010
55. Y. T. Tsai, C. H. Choi and E. H. Yang, “Contact Angle Hysteresis of Droplet on a Wettability Switchable Surface,” TechConnect World Conference and Expo 2010, Anaheim, California, June 21-25, 2010
54. R. Leeladhar, W. Xu, Y-T. Tsai, E. H. Yang, and C-H. Choi, “Nanofluid Droplet Evaporation on Superhydrophobic Surfaces,” m-TAS, Cheju, Korea, Nov 2009
53. O. Sul, C. Tsai, N. Gao, and E. H. Yang, “Preprogrammed Self-Arrangement of Multiple Individual Nano-Objects on a Substrate,” m-TAS, Cheju, Korea, Nov 2009
52. E. H. Yang, S. Strauf, F. Fisher, and D. S. Choi, “Carbon-based Nano Devices for Sensors, Actuators and Electronics,” SPIE Defense and Security Symposium, Micro- and Nanotechnology Sensors, Systems, and Applications, Conference 7318 - Proceedings of SPIE Volume 7318, Orlando, FL, April 2009. Invited paper [SPIE Highlight in the News, April 2009]
51. N. Ai, Y. T. Tsai, E. H. Yang, D. S. Choi and S. Strauf, “Electro-optical Characterization of Individual Multiwall Carbon Nanotubes,” SPIE Defense and Security Symposium, Micro- and Nanotechnology Sensors, Systems, and Applications, Conference 7318 - Proceedings of SPIE Volume 7318, Orlando, FL, April 2009
50. S. Jang, S. Manoochehri and E. H. Yang, “Fabrication of Vertically Standing Metal Nanowire Arrays on Silicon and Glass Substrates using Polycarbonate Membrane,” Defense and Security Symposium, Micro- and Nanotechnology Sensors, Systems, and Applications, Conference 7318 - Proceedings of SPIE Volume 7318, Orlando, FL, April 2008
49. N. Gao, G. Meh Chu and E. H. Yang, “Functionalized Nickel Nanowires for Cell Separation,” SPIE Defense and Security Symposium, Micro- and Nanotechnology Sensors, Systems, and Applications, Conference 7318 - Proceedings of SPIE Volume 7318, Orlando, FL, April 2009
48. O. Sul and E. H. Yang, "Development of Carbon Nanotube-Based Nanoactuator for Nano-Conveyer System", ASME International Mechanical Engineering Congress and Exposition, Boston, MA, Nov 2008
47. Y. T. Tsai, W. Xu, E. H. Yang and C. H. Choi, “Interfacial-Tension-Directed Self-Assembly of Nanowires on a Superhydrophobic Surfaces, ASME International Mechanical Engineering Congress and Exposition, Boston, MA, Nov. 2008
46. H. J. Yoon, J. H. Yang, S. S. Yang, and E. H. Yang, “Microfabricated Nanowire Sorter for Nanowire Assembly”, ASME International Mechanical Engineering Congress and Exposition, Boston, MA, Nov. 2008
45. D. S. Choi, V. Fucsko and E. H. Yang, “Copper Nanotubes for Packaging Applications,” IEEE Aerospace Conference, Big Sky, Montana, USA, April 2008
44. H. Yu, Y. Tsai, H. Wang and E. H. Yang, “Internationalization of Gold and Nickel Nanowires by Living Cells,” SPIE Defense and Security Symposium, Micro and Nanotechnologies for Defense and Security, Proceeding of SPIE, Orlando, FL, March 2008
43. E. H. Yang, "Microactuators for Wavefront Correction in Space,” SPIE Defense and Security Symposium, Micro and Nanotechnologies for Defense and Security, Proceeding of SPIE, Vol. 6556, Orlando, FL, April 2007. Invited paper
42. B. Yoo, Y. Rheem, C. Hangarter, E. H. Yang, and N. V. Myung, “Site-Specific Magnetic Assembly of Nanostructures for Sensor Arrays,” Proceedings of 2006 IEEE Sensors Conference, Daegu, Korea, October 2006
41. R. Toda and E. H. Yang, “Zero-Power Latching, Large-stroke, High-precision Linear Microactuator for Lightweight Structures in Space,” IEEE Micro Electro Mechanical Systems (MEMS) Conference, Istanbul, Turkey, January 2006
40. Y. Hishinuma and E. H. Yang, “Large Aperture Deformable Mirror with a Transferred Single-Crystal Silicon Membrane Actuated Using Large-Stroke PZT Unimorph Actuators,” IEEE Int. Conf. Solid-State Sensors and Actuators (Transducers '05), Seoul, Korea, June 2005
39. S. M. Saeidi, J. M. Khodadadi, C.A. Johnson, C. Lee and E. H. Yang, “Computational Modeling of a Piezoelectrically Actuated Microvalve for the Control of Liquid Flowrate,” 2005 NSTI Nanotechnology Conference and Trade Show, Nanotech 2005, Anaheim, California, U.S.A, May 8-12, 2005
38. R. Toda and E. H. Yang, “Fabrication and Characterization of Vertical Travel Linear Microactuator,” SPIE Photonics West, MOEMS-MEMS Conference, San Jose, California, USA, January 2005
37. Y. Hishinuma, E. H. Yang, Eric Bloemhof, and B. Martin Levine, “Piezoelectric Unimorph MEMS Deformable Mirror for Ultra-Large Telescopes,” SPIE Photonics West, MOEMS-MEMS Conference, San Jose, California, USA, January 2005
36. R. Toda and E. H. Yang, “Fabrication and Characterization of Vertical Inchworm Microactuator,” Proceedings of 2004 ASME International Mechanical Engineering Congress and Exposition, Anaheim, California, November 13-19, 2004
35. Y. Hishinuma, E. H. Yang, J. –G. Cheng, and Susan Trolier-McKinstry, “Optimized Design, Fabrication and Characterization of PZT Unimorph Microactuators for Large-Stroke, Continuous Membrane Deformable Mirrors,” Proceedings of 2004 ASME International Mechanical Engineering Congress and Exposition, Anaheim, California, November 13-19, 2004
34. Y. Hishinuma and E. H. Yang, “Single-Crystal Silicon Continuous Membrane Deformable Mirror with PZT Unimorph Microactuator Arrays,” Solid-State Sensor, Actuator and Microsystems Workshop (Hilton Head 2004), Hilton Head Island, South Carolina, June 6-10, 2004
33. C. Lee and E. H. Yang, “Piezoelectric Liquid-Compatible Microvalve for Integrated Micropropulsion,” Solid-State Sensor, Actuator and Microsystems Workshop (Hilton Head 2004), Hilton Head Island, South Carolina, June 6-10, 2004
32. C. Lee, E. H. Yang, N.V. Myung, and T. George, “A Nanochannel Fabrication Technology without Nanolithography,” m-TAS Conference, Lake Tahoe, CA, USA, Oct. 5-9, 2003.
31. C. Lee, E. H. Yang, N.V. Myung, and T. George, “A Nanochannel Fabrication Technique Using Chemical-Mechanical Polishing (CMP) and Thermal Oxidation,” IEEE-Nano 2003, San Francisco, CA, USA, August 12-14, 2003.
30. S. N. Gullapalli, E. H. Yang and S. –S. Lih, “New Technologies for the Actuation and Control of Large Aperture Lightweight Optical Quality Mirrors,” IEEE Aerospace Conference, Big Sky, Montana, USA, 2003.
29. P. Krulevitch, P. Bierden, T. Bifano, E. Carr, C. Dimas, H. Dyson, M. Helmbrecht, P. Kurczynski, R. Muller, S. Olivier, Y. Peter, B. Sadoulet, O. Solgaard, and E. H. Yang, “MOEMS Spatial Light Modulator Development at the Center for Adaptive Optics,” SPIE Photonics West, Micromachining and Microfabrication Conference, San Jose, California, USA, January 2003. Invited paper
28. D. S. Choi and E. H. Yang, “Fabrication of 20 nm Embedded Longitudinal Nanochannels by Etching Sacrificial Nanowires,” Nanotechnology Conference and Trade Show, San Francisco, California, USA, February 23-27, 2003
27. E. H. Yang, C. Lee and J. Mueller, “Normally-Closed, Leak-Tight Piezoelectric Microvalve with Ultra-High Pressure Upstream Flow Control for Integrated Micropropulsion,” IEEE International Conference on Microelectromechanical Systems (MEMS ’03) Conference, Kyoto, Japan, Jan. 2003, pp. 80-83
26. E. H. Yang, R. Dekany and S. Padin, “Design and Fabrication of a Large Vertical Travel Silicon Inchworm Microactuator for Advanced Segmented Silicon Space Telescope (ASSiST),” SPIE Photonics West, Micromachining and Microfabrication Conference, San Jose, California, USA, January 2003
25. E. H. Yang, K. Shcheglov and Susan Trolier-McKinstry, “Concept, Modeling and Fabrication Techniques for Large-Stroke Piezoelectric Unimorph Deformable Mirrors,” SPIE Photonics West, Micromachining and Microfabrication Conference, San Jose, California, USA, January 2003
24. E. H. Yang and C. Lee, "Piezoelectric Microvalves for Micropropulsion," ASME International Mechanical Engineering Congress and Exposition, Orlando, FL, November 2002
23. E. H. Yang, N. Rohatgi and L. Wild, "A Piezoelectric Microvalve for Micropropulsion," AIAA Conference on Nanotech 2002 - "At the Edge of Revolution," Houston, Texas, 9 - 12 Sep. 2002.
22. J. Mueller, C. Marrese, J. Ziemer, A. Green, M. Mojarradi, T. Johnson, E. H. Yang, V. White, D. Bame, R. Wirz, M. Tajmar, J. Schein, R. Reinicke, and V. Hruby "JPL Micro-Thrust Propulsion Activities," AIAA Conference on Nanotech 2002 - "At the Edge of Revolution," Houston, Texas, 9 - 12 Sep. 200
21. E. H. Yang, and K. Shcheglov, "A Piezoelectric Bimorph Deformable Mirror Concept by Wafer Transfer for Ultra Large Space Telescopes," SPIE International Symposium on Astronomical Telescopes and Instrumentation, Adaptive Optical System Technologies II, Waikoloa, Hawaii, USA, 22-28 August 2002.
20. R. Dekany, D. McMartin, S. Padin, E. H. Yang and M. Troy, "Advanced Segmented Silicon Space Telescopes (ASSiST)," SPIE International Symposium on Astronomical Telescopes and Instrumentation, Adaptive Optical System Technologies II, Waikoloa, Hawaii, USA, 22-28 August 2002
19. E. H. Yang and D. V. Wiberg, "A Wafer Transfer Technology for MEMS Adaptive Optics," ASME International Mechanical Engineering Congress and Exposition, Novel Micromachining Processes and Packaging for MEMS, New York, New York, November 2001.
18. J. Mueller, C. Marrese, J. Polk, E. H. Yang, A. Green, V. White, D. Bame, I. Chakraborty, and S. Vargo, “An Overview of MEMS-Based Micropropulsion Developments at JPL”, IAA-B3-1004, 3d International Symposium of the International Academy of Astronautics (IAA) for Small Satellites for Earth Observation, Berlin, Germany, April 2-6, 2001.
17. J. Mueller, E. H. Yang, A. Green, V. White, I. Chakraborty and R. Reinicke, "Design and Fabrication of MEMS-Based Micropropulsion Devices at JPL," Reliability, Testing, and Characterization of MEMS/MOEMS, Proceedings of SPIE Vol. 4558, San Francisco, October (2001), pp. 57-71. Invited paper
16. T. George, Y. Bae, I. Chakraborty, H. Cherry, C. Evans, F. Eyre, A. Hui, K. King, L. Kim, R. Lawtona, G. Lin, C. Marreseb, J. Mueller, J. Podosek, K. Shcheglov, T. Tang, T. van Zandt, S. Vargo, J. Wellmana, V. White, D. Wiberg and E. H. Yang, "MEMS Technology at NASA's Jet Propulsion Laboratory," SPIE Int’l Symp. Optical Science and Technology, San Diego, July 30 - Aug. 4, 2000. Invited paper
15. E. H. Yang and D. V. Wiberg, "A New Wafer-Level Membrane Transfer Technique for MEMS Deformable Mirrors," IEEE International Conference on Microelectromechanical Systems (MEMS ’01) Conference, Interlaken, Switzerland, Jan. 2000, pp. 80-83
14. E. H. Yang, D. V. Wiberg, and Richard G Dekany, "Design and Fabrication of Electrostatic Actuators with Corrugated Membranes for MEMS Deformable Mirror in Space," SPIE Int’l Symp. Optical Science and Technology, Vol. 4091, San Diego, July 30 - Aug. 4, 2000, pp. 83-89.
13. P. Surbled, B. Le Pioufle, E. H. Yang, H. Fujita, "Shape Memory Alloys for Micromembranes Actuation," Europto Series (EOS/SPIE symposia), Munich (D), 14-18 June 1999, pp. 63-70
12. E. H. Yang and H. Fujita, “Fabrication of Thin Film TiNi Shape Memory Alloy Microactuators for Optical Switching Applications," SPIE Micromachining and Microfabrication Conference, Microelectronic Structures and MEMS for Optical Processing IV, Vol. 3513, September 21-22, 1998
11. E. H. Yang and H. Fujita, "Reshaping of Single-Crystalline Silicon Microstructures for 3D MEMS," Micro-Mechanics Europe 97 (MME 97), Southampton, England, Sept. 1997, pp. 67-70
10. E. H. Yang and H. Fujita, "Fabrication and Characterization of U-shaped Beams for the Determination of the Modification of Young's Modulus after Joule Heating of Polysilicon Microstructures," IEEE Int. Conf. Solid-State Sensors and Actuators (Transducers '97), Chicago, USA, June 1997, pp. 603-606.
9. E. H. Yang and H. Fujita, "Plastic Deformation of Single-Crystalline Silicon Microstructures by Joule Heating," Sensor Symposium, Late News, Kawasaki, Japan, June 1997, p. L73.
8. Y. Fukuta, D. Collard, T. Akiyama, E. H. Yang and H. Fujita," Microactuated Self-Assembling of 3D Polysilicon Structures with Reshaping Technology," IEEE International Conference on Microelectromechanical Systems (MEMS '97), Nagoya, Japan, Jan. 1997, pp. 477-481
7. E. H. Yang and H. Fujita, "Modification of Young's Modulus due to the Joule Heating of Polysilicon U-shaped Beams," IEEJ Annual Conference, Vol. 3, Kyoto, Japan, March 1997, pp. 247-248
6. E. H. Yang, S. S. Yang, E. J. Park and S. H. Yoo, "Dynamic Characteristics of the Corrugated and the Flat p+ Diaphragms Actuated Electrostatically under Residual Stress)," International Mechanical Engineering Congress and Exposition (96 Winter Annual Meeting), Atlanta, U.S.A., DSC-Vol. 59, Nov. 1996, pp. 441-445
5. E. H. Yang, S. S. Yang and S. H. Yoo, "Design and Fabrication of Electrostatic Microactuators with Silicon Diaphragms," Int. Workshop on Advanced Mechatronics, Cheju, Korea, Dec. 1995, pp. 247-256
4. E. H. Yang, S. S. Yang, S. W. Han, and S. Y. Kim, "Fabrication and Dynamic Testing of Electrostatic Microactuators with p+ Diaphragms," IEEE Region 10 Conference on Microelectronics and VLSI, Hong Kong, Nov. 1995, pp. 28-31
3. E. H. Yang and S. S. Yang, "Fabrication of an Electrostatic Micropump with p+ Diaphragms," Int. Symp. on Microsystems, Intelligent Materials and Robots, Sendai, Japan, Sept. 1995, pp. 106-109
2. E. H. Yang and S. S. Yang, "A New Technique for Quantitative Determination of the Stress Profile along the Depth of p+ Silicon Films," IEEE Int. Conf. Solid-State Sensors and Actuators, (Transducers ’95), Stockholm, Sweden, June 1995, pp. 68-71.
1. S. S. Yang, E. H. Yang, S. Y. Kim, J. D. Seo, and S. H. Yoo, "Fabrication of an Electrostatic Actuator and Passive Valves with p+ Diaphragms for Micropumps," ASME Winter Annual Meeting, DSC-vol. 55-2, Chicago, U.S.A., Nov. 1994, pp. 733-740.

NANO 200: Intro to Nanotechnology
ME 483: Control Systems
ME 581: Introduction to Bio Micro Electro Mechanical Systems
NANO 325: Introduction to Nanofabrication and Characterization
NANO 600: Nanoscale Science and Technology
ME 681: Applications of Advanced Micro/Nano Materials, Structures, and Devices