Inkjet-Printed Graphene for Energy Storage and Sensing (Graphene LIVE! USA 2012)

Prof Woo Young Lee, George Meade Bond Professor
Stevens Institute of Technology
United States
Déc 06, 2012.


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Presentation Summary

• Inkjet Printing for Additive Manufacturing of Graphene Electrodes
• 3-D Graphene Assembly during Inkjet Printing for Ideal Supercapacitor Performance
• Tailorable Optoelectrical Properties for Sensor Applications

Speaker Biography (Woo Young Lee)

Woo Lee is George Meade Bond Chair Professor of Chemical Engineering and Materials Science, Stevens Institute of Technology, Hoboken, New Jersey, USA. His research focus is currently on creating nanomaterial assemblies and in vitro tissues as enabling building blocks for transformative energy and biomedical devices. He is Fellow of the American Ceramic Society. In this presentation, Prof. Lee will report novel optoelectrical and electrochemical properties of inkjet-printed graphene for flexible energy storage and sensing device applications.

Company Profile (Stevens Institute of Technology)

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Founded in 1870 and celebrating 140 Years of Innovation, Stevens Institute of Technology, The Innovation University TM , lives at the intersection of industry, academics and research. The University's students, faculty and partners leverage their collective real-world experience and culture of innovation, research and entrepreneurship to confront global challenges in engineering, science, systems and technology management.
Based in Hoboken, N.J. and with a location in Washington, D.C., Stevens offers baccalaureate, master's, certificates and doctoral degrees in engineering, the sciences and management. The University has a total enrollment of more than 2,200 undergraduate and 3,700 graduate students with almost 450 faculty.
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