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DTSTAMP:20220112T171248Z
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DTSTART;TZID=America/New_York:20211209T120000
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DESCRIPTION:Reverse-engineering the brain demands complex approaches\, whic
 h require dovetailed cross-disciplinary efforts and convergence research. 
 We believe nanoelectronics can be tailored to uniquely complement many oth
 er fields and practices of studying the brain through adding multifunction
 ality towards achieving convergence while keeping their electronic advanta
 ge to integrate and scale across spatial and temporal domains. We refer to
  this multifunctional integrated nanoelectronics for the brain as neuroele
 ctronics+. In this talk\, I will introduce our neuroelectronics+ concept. 
 I will also discuss several of my group’s recent examples along this vis
 ion embodied in the forms of microscopical\, therapeutic\, and connectomic
 al neuroelectronics+\, all enabled by new concepts in materials science\, 
 electrical engineering\, and advanced manufacturing. In addition to fundam
 ental merit in engineering innovations\, we envision the development and t
 ranslation of neuroelectronics+\, and more broadly\, bioelectronics+ will 
 transform both biology and medicine.\n\nSpeaker(s): Dr. Hui Fang\, \n\nBos
 ton\, Massachusetts\, United States\, Virtual: https://events.vtools.ieee.
 org/m/290690
LOCATION:Boston\, Massachusetts\, United States\, Virtual: https://events.v
 tools.ieee.org/m/290690
ORGANIZER:aseem.singh@ieee.org
SEQUENCE:3
SUMMARY:Multifunctional Integrated Nanoelectronics for the Brain
URL;VALUE=URI:https://events.vtools.ieee.org/m/290690
X-ALT-DESC:Description: <br /><p>Reverse-engineering the brain demands comp
 lex approaches\, which require dovetailed cross-disciplinary efforts and c
 onvergence research.&nbsp\; We believe nanoelectronics can be tailored to 
 uniquely complement many other fields and practices of studying the brain 
 through adding multifunctionality towards achieving convergence while keep
 ing their electronic advantage to integrate and scale across spatial and t
 emporal domains.&nbsp\; We refer to this multifunctional integrated nanoel
 ectronics for the brain as neuroelectronics+.&nbsp\; In this talk\, I will
  introduce our neuroelectronics+ concept.&nbsp\; I will also discuss sever
 al of my group&rsquo\;s recent examples along this vision embodied in the 
 forms of microscopical\, therapeutic\, and connectomical neuroelectronics+
 \, all enabled by new concepts in materials science\, electrical engineeri
 ng\, and advanced manufacturing.&nbsp\; In addition to fundamental merit i
 n engineering innovations\, we envision the development and translation of
  neuroelectronics+\, and more broadly\, bioelectronics+ will transform bot
 h biology and medicine.</p>
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