BERKELEY SENSOR & ACTUATOR CENTER
UC BERKELEY UC DAVIS
User: Guest |  Site Map |  My BSAC Profile
HOME  PROJECTS  THRUSTS  PUBLICATIONS  ABOUT BSAC  DIRECTORY  ALUMNI  FOR BSAC RESEARCHERS  EVENTS CALENDAR  SECURE LOGIN
Researchers
     
 
Leslie Chan, Ph.D. 2019

Chemical and Biomolecular Engineering
Advisor: Prof. Maboudian

Home Page

BIOGRAPHY

Transfer-Free Synthesis of Graphene on Insulating Substrates [BPN875]
Graphene has become one of the pinnacles of nanomaterials research, touted for its manifold applications and potential as “the next silicon” in electronics. At this time, integrated production of graphene-based devices remains a barrier, requiring a process that is reliable, large-scale, and compatible with conventional fabrication approaches. One common method for graphene synthesis is chemical vapor deposition (CVD) on metal substrates, which requires a transfer step to target materials (e.g., insulating substrates for device applications). However, this extra transfer step often leads to wrinkles, contamination, and breakage that can lead to poor device performance. This project seeks to devise a robust method for growing high-quality, wafer-scale, mono/bi-layer graphene directly on insulating substrates such as SiO2, enabling efficient and coherent incorporation of graphene for next-generation devices.


Current Active Projects:
BPN875
 

     Last Updated: Mon 2017-Sep-04 21:50:25

back to Researchers



 

  • Copyright Notification: All papers downloaded from this site are © University of California or the publisher, all rights reserved. Contact the BSAC Webmaster for permission related to copyrighted materials.
  • Links on these pages to commercial sites do not represent endorsements by UC or its affiliates.
  • Privacy Policy
  • Contact Us

   webmaster@bsac.eecs.berkeley.edu
  User logged in as: Guest
  User Idle since: November 20, 2017, 2:55 pm