Université PSL

Self-Assembly of Graphene Biosensors for Biomedical Analysis

Self-Assembly of Graphene Biosensors for Biomedical Analysis
Date : 25/01/2019
Lieu : ENS, Salle des Eléments (E012)

Prof. Tianhong Cui
Department of Mechanical Engineering, University of Minnesota, USA

Pr. Tianhong Cui is currently the Distinguished McKnight University Professor at the University of Minnesota. He is a Professor in Mechanical Engineering and an Affiliate Senior Member in Department of Electrical Engineering and Department of Biomedical Engineering. He is an Adjunct Professor at Mayo Clinic, a Distinguished Visiting Fellow at the University of Cambridge, and a Laureate of Blaise Pascal Chair for Excellence from ENS Foundation in France.
His current research interests include MEMS/ NEMS and nanotechnology for medical applications. He has more than 310 archived publications in scientific journals and prestigious conferences, and holds 7 US patents in the above areas. He received awards including the STA & NEDO Fellowships in Japan, the Alexander von Humboldt Fellowship in Germany, the Research Foundation Award from Louisiana Tech University, the Richard & Barbara Endowed Chair, the Distinguished Visiting Professorships from University of Paris East and Tsinghua University and the Distinguished Visiting Fellowship from the Royal Academy of Engineering in UK. He is also the founding Executive Editor-in-Chief for two Nature journals, Light: Science & Applications and Microsystems & Nanoengineering, and for the first AAAS/Science Partner Journal titled Research. For his editor activities, he received the Outstanding Editor Award from Nature Publishing Group.

Invited by Yong Chen, Pôle NanoBiotech and MicroSystems, UMR 8640

This talk presents the combination of “bottom-up” layer-by-layer (LbL) nano self-assembly and “top-down” micromanufacturing techniques to fabricate graphene MEMS and electronics for biomedical applications. With nano self-assembly and surface micromachining, highly flexible graphene-based beam platform for micro sensing and actuation was fabricated and investigated successfully with a potential for biomedical applications. For flexible electronics devices, self-assembled graphene-based field-effect transistors with embedded self-assembled films as dielectric and active layers were fabricated and characterized successfully. These self-assembled field-effect transistors were primarily investigated for high-performance bio-sensing applications.