Research Overview of Research Overview of Nano- -Bioelectronics - - PDF document

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Research Overview of Research Overview of Nano- -Bioelectronics - - PDF document

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Research Overview of Research Overview of Nano- -Bioelectronics & Systems Bioelectronics & Systems Nano (NBS) Research Center (NBS) Research Center Sung June Kim and Hyoungwon Baac Nano-Bioelectronics & Systems Research Center

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SLIDE 1

Research Overview of Research Overview of Nano Nano-

  • Bioelectronics & Systems

Bioelectronics & Systems (NBS) Research Center (NBS) Research Center

Sung June Kim and Hyoungwon Baac

Nano-Bioelectronics & Systems Research Center Seoul National University

Nano-Bioelectronics & Systems Research Center

Goal

Development and clinical application of bioelectronic

systems using micro/ nanofabrication technologies

Center overview

Engineering Research Center(ERC) supported by Korean

Science and Engineering Foundation(KOSEF), Ministry of Science and Technology (2000.7 ~ 2009.2)

Interdisciplinary Research Organization (BT+NT+IT) 20 professors, 80 Postdoc. & graduate students over 9

universities

4 companies – Industrial collaboration NBTC, CNF, Wadsworth Center - International collaboration

with Bioengineering Program, Cornell University

NBS-ERC

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SLIDE 2

Chip integration Clinical application

Development & clinical application of Bioelectronic systems

Design & Fundamental

1 1

s t s ts

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In vitro… on chip… Integration… In vivo… Clinical… System…

2000 2003 2006 2009

S t a g e s

Present

Ophthalmology (2) MEMS/ NEMS (8) Biochemistry (2) Optics (2) Organic Synthesis (1)

Total 20

Medicine

(5 members, 25%)

Micro-/ Nano- machining

(9 members, 45%)

Chemical Engineering

(3 members, 15%)

Information Processing

(3 members, 15%)

M e m b e r s

Signal Processing (1) Physiology (2) Semiconductor Device (1) Otohinolaryngology (1)

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SLIDE 3

P r

  • j

e c t s

Neural chip division (Neural prostheses)……11 professors

  • Neural interface by neural probe using semiconductor process
  • Retinal stimulator
  • Brain-Computer interface
  • Artificial olfactory sensing system
  • Auditory cortex stimulation model through cochlear implant

Cell chip division : Micro-FACS…………………..5 professors

  • Microfluidic control for cytometry
  • Flow-transfer device
  • Optical characterization of cell structure/ behavior
  • Circuit integration & User-interface
  • Micro-lens for optical detection

Protein chip division………………………………..4 professors

  • Micromachining for protein patterning & Optical detection system
  • Biomolecular recognition & Surface modification

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