Sponsored By

Hohai University

 

Panel of Computational Mechanics on Granular Materials, Working Party of Computational Mechanics, Chinese Society of Theoretical and Applied Mechanics

 

Jiangsu Society of Theoretical and Applied Mechanics

 

Granular Computing Committee of Chinese Society of Granular Engineering (Preparatory)

 

Organized By

Hohai University

 

 Monash University

 

Co-organized by

Southeast University

Jiangxi University of Science and Technology

Northeast University

DUT-BSU Scientific Research and Innovation Center

Suzhou University of Science and Technology

State Key Laboratory of Structural Analysis, Optimization and CAE Software for Industrial Equipment 

Sponsoring agency

KELI SDEM Software (Dalian) Co., Ltd.

 

Sugon Smart Computing Information Technology Co., Ltd.

 

Beijing Paratera Technology Co., Ltd.

 

Simpop Information Technology Co., Ltd.

Important Dates

Conference Announcement

  • December 2023, release First Round Announcement

  • Abstract Submission Deadline

  • March 31th, 2024

  • Paper Submission Deadline

  • April 30th, 2024

  • Registration

  • From January 1st, 2024

  • Conference Schedule

  • May 31st (Friday), 2024 On-Site Registration 

  • June 1st to 3rd, 2024 Conference

  •  

[Poster Presentation]Two-dimensional carbon-based materials for brain electrodes

Two-dimensional carbon-based materials for brain electrodes
ID:282 Submission ID:306 View Protection:ATTENDEE Updated Time:2024-04-30 10:50:40 Hits:524 Poster Presentation

Start Time:Pending (Asia/Shanghai)

Duration:Pending

Session:[No Session] » [No Session Block]

No files

Abstract
A neural interface is a powerful tool kit needed to stimulate or record the electrical activity of the nervous system. At present, the electrode design of neural interface is still based on metal materials, but the recording sensitivity is often affected by the impedance limitation of traditional metals. In addition, the development of neural electrode materials also faces problems such as limited function, mismatching between materials and neural tissues and mechanical stability need to be improved. Faced with a series of challenges, carbon-based materials with high double-layer capacitance have the characteristics of low interface impedance, which is conducive to improving the signal-to-noise ratio and sensitivity of electrical signal transmission. Two-dimensional (2D) nanomaterials, which are easy to surface modify, offer the possibility of enhancing various functionalization capabilities of neural interfaces. Based on this, this research aims to prepare electrode array devices based on carbon-based 2D nanomaterials through different synthesis and processing methods and explore their advantages in the development of neural electrodes, so as to improve the existing problems in current applications.
 
Keywords
brain electrodes
Speaker
YangJunjun
Monash University

Submission Author
YangJunjun Monash University
Comment submit
Verification code Change another
All comments
Copyright © The 7th National Conference on Computational Mechanics of Granular Materials in conjunction with The 4th International Symposium on Computational Particle Technology
Powered by Aconf.org , One-stop Solutions for Academic Events

Manage the Conference

Abstract
Registration
Hotel