Nano-Micro-Bio Lab Faculty 

Woo Lee, Ph.D. sitting in front of a computerWoo Young Lee, Ph.D.
George Meade Bond Professor of Chemical Engineering and Materials Science
Department of Chemical Engineering and Materials Science
1 Castle Point on Hudson
Burchard Building 308
Stevens Institute of Technology
Hoboken, New Jersey 07030
201-216-8307
[email protected] | Web Page 

 

I joined Stevens in 1997 as Associate Professor after working at United Technologies Research Center (1990-1992) and Oak Ridge National Laboratory (1992-1997). I received tenure in 2000, and was promoted to Professor in 2001. From 2000 to 2005, I chaired the Department of Chemical, Biomedical and Materials Engineering. During this period, the Department's annual research expenditures increased from $1M to $2.2M. Under my administrative leadership, the Biomedical Engineering program was launched in 2002. I was awarded with Stevens' honorary Master of Engineering degree in 2008 for my service to the Institute. I have taught undergraduate students in Chemical Engineering and Biomedical Engineering and graduate students in Materials Science and Engineering.

I began my research career with the design and synthesis of composite materials and coatings for use in extremely high-temperature environments encountered in aircraft engines and power generation turbines. For this accomplishment, I was elected to Fellow of the American Ceramic Society in 2004.

The role that I have greatly enjoyed at Stevens is to function as a facilitator in shaping up the interdisciplinary research landscape of the Institute. For example, in 2001, I initiated a multi-investigator research effort on microreactors and microfluidics. This initiative has provided an intellectual theater for over 30 graduate and postdoctoral students and 20 external collaborators with >$12M in external funding received by our faculty investigators from multiple government sponsors. On the technical side, I have contributed to: (1) the development of several self-assembly techniques for modifying the surface of microchannels for catalytic reactions and (2) the exploration of microfluidic-based self-assembly methods for creating a new class of nanocomposite materials for energetic applications.Also, the microfluidic-based approach has been extended to creating and inkjet printing nanocomposite micropatterns for a variety of applications ranging from flexible energy storage devices to infection-resistant orthopaedic implant surfaces. I was appointed as George Meade Bond Chair Professor in 2009 for my leadership in inspiring my colleagues, students, and collaborators to pursue a wide range of new emerging research topics at our university.

My latest passion is to explore the possibility of developing microfluidic tissue models, as an entirely new way of studying how human tissues interact with drugs, pathogens, and biomaterials. I believe this new approach is expected to: (1) reduce reliance on animal studies since they do not often predict human response and (2) provide a path for the potential development of assays to assist in therapeutic decision-making. Also, I have been fascinated by graphene as a truly flexible, potentially low-cost material that wrinkles and folds at a nanoscale while being mechanically strong and electrochemically inert

 

Current Ph.D. Students 

Zhehuan Chen

Zhehuan Chen
[email protected]

After graduating from Xi’an Jiaotong University in 2014, I chose to come to Stevens as a doctoral candidate in Materials Engineering. The beautiful scene of the campus along the Hudson River and excellent research environment of engineering deeply attract me. Now, I am focused on developing a cell culture platform witch can realize graft-versus-host disease in vitro. This is of great significance since it can be used to study the biology of human and evaluate the efficacy of new drugs.

 

Yiqian JinYiqian Jin
[email protected]

I, Yiqian Jin, a bachelor of engineering graduated from Peking University in 2014. I came to Stevens Institute of Technology in August, 2014, and graduated as a master of engineering in December 2015. Now I am working in Prof. Lee's lab as a doctoral student. I started learning science research skills in 2011. The research I have done included lithium ion batteries, polymers, nanospheres and graphene. Now my work is focused on the sensing properties of graphene and the relevant applications.

 

Chao SuiChao Sui
[email protected]

I received my B.S. and M.S degrees in Chemistry & Chemical Engineering from Qingdao University and Beijing Institute of Technology, respectively. Now, I am a Ph.D. student in the Department of Chemical Engineering & Materials Science, Stevens Institute of Technology, under the supervision of Prof. Woo Lee. My research interests include the circulating tumor (multiple myeloma) cells and the immunotherapy for multiple myeloma.

 

Linh LeLinh Le
[email protected] 

I joined Prof. Woo Lee’s lab in Fall 2009 after receiving MSc in Chemical Engineering from Columbia University and BSc in Analytical Chemistry from Vietnam National University. My research overlapped between graphene-based nanomaterial, scalable printing technology with main applications in flexible electronics. Most recently, I was interested in entrepreneurship and had co-founded a startup company, FlexTraPower to further develop the graphene technology as a commercial product.

 

 

 

Graduated Ph.D. Students 

Prof. Ying Zhang, Tennessee Technological University
Dr. Gi-Youl Kim, Genus
Prof. Hao Li, University of Missouri - Columbia
Dr. Jinil Lee, Samsung Electronics
Dr. Limin He, Aerospace Materials Research Center, China
Dr. Yi-Feng Su, University of Central Florida
Prof. Haibiao Chen, Peking University
Dr. Hongwei Qiu, Leiods
Dr Joung-Hyun "Helen" Lee, Columbia University
Dr. Andrew Ihnen, Naval Air Weapons Station China Lake
Dr. Yexin Gu, Fudan University
Dr. Wenting Zhang, Aetna
Dr. Eric Boon, Okonite
Dr. Qiaoling Sun, TransUnion