E u r o S c i C o n C o n f e r e n c e o n

Nanotechnology &

Smart Materials

Nano Research & Applications

ISSN 2471-9838

O c t o b e r 0 4 - 0 6 , 2 0 1 8

Am s t e r d a m , N e t h e r l a n d s

Nanotechnology & Smart Materials 2018

Page 32

G

raphene has the potential for creating thin film devices, owing to its two-di-

mensionality and structural flatness. Assembling graphene-based building

blocks into hybrid structures or composites with diverse targeted structures has

attracted considerable interests for understanding its new properties and expand-

ing the potential applications. The integration of graphene into a device always

involves its interaction with supporting substrates, making this interaction critical

to its real-life applications. This presentation will focus on graphene-on-polymer

heterostructure based sensors. We design tiling structures in graphene, compos-

ing overlapped graphene plates and realize high sensitivity sensing. By future,

combining artificial intelligence with digital signal processing, the graphene based

sensing system will represent a new smart tool to classify and analyze signals in

fields of vital signs monitoring, displays, robotics, fatigue detection and

in vitro

diagnostics

Biography

Hongwei Zhu has received his BS degree in 1998 and PhD de-

gree in 2003 from Tsinghua University. After completion of his

Postdoc studies in Japan and USA, he began his independent

career as a Faculty Member at Tsinghua University (2008~pres-

ent). He is the Vice Dean of School of Materials Science and

Engineering. He has authored 3 books and over ten invited book

chapters. He has received over 20 patents and published more

than 200+ papers in reputed journals.

hongweizhu@tsinghua.edu.cn

Ultra-sensitive graphene sensors for IoT

applications

Hongwei Zhu

State Key Laboratory of New Ceramics and Fine Processing-

Tsinghua University, China

Hongwei Zhu, Nano Res Appl Volume:4

DOI: 10.21767/2471-9838-C6-024