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

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 Seoul National University Nano-Bioelectronics & Systems Research Center NBS-ERC � 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

S t a g e s G G o o a a l l Development & clinical application of Bioelectronic systems 3 3 r d s s t t a a g g e e r d Clinical application 2 2 n d s s t t a a g g e e n d In vivo… Clinical… System… Chip integration 1 1 s t s s t t a a g g e e s t In vitro… on chip… Integration… Design & Fundamental 2000 2003 2006 2009 Present M e m b e r s Medicine Otohinolaryngology (5 members, 25%) (1) Ophthalmology (2) Micro-/ Nano- Physiology (2) MEMS/ NEMS machining (8) Total (9 members, 45%) 20 Biochemistry (2) Chemical Organic Semiconductor Engineering Synthesis Device (1) (3 members, 15%) (1) Signal Optics Processing (2) (1) Information Processing (3 members, 15%)

P r o 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 C o n t a c t N a me A f f i l i a t i o n R e s e a r c h F i e l d E - m a i l S u n g J u n e K i m ( D i r e c t o r ) S e o u l N a t i o n a l U n i v . B i o e l e c t r o n i c s k i m@h e l i o s . s n u . a c . k r D o n g i l D a n C h o S e o u l N a t i o n a l U n i v . M E M S d i c h o @a s r i . s n u . a c . k r J a me s J u n g h oP a k K o r e a U n i v . M E M S p a k @ma i l . k o r e a . a c . k r S e u n g - K i L e e D a n k o o k U n i v . M E M S s k i l e e @n s . d a n k o o k . a c . k r H u m C h u n g S e o u l N a t i o n a l U n i v . O p h t h a l mo l o g y c h u n g h @s n u . a c . k r N e u r a l c h i p Y o u n g S u k Y u S e o u l N a t i o n a l U n i v . O p h t h a l mo l o g y y s y u @s n u . a c . k r Y o n g S o o k G o o C h u n g b o o k N a t i o n a l U n i v . P h y s i o l o g y y s g o o @me d . c h u n g b u k . a c . k r H y u n g - C h e u l S h i n H a l l y m U n i v . N e u r o p h y s i o l o g y h c s h i n @s u n . h a l l y m. a c . k r T a e j e o n gK i m S e o u l N a t i o n a l U n i v . S i g n a l p r o c e s s i n g t k i m@s n u . a c . k r T a i H y u n P a r k S e o u l N a t i o n a l U n i v . B i o c h e mi s t r y t h p a r k @p l a z a . s n u . a c . k r S e u n gH a O h S e o u l N a t i o n a l U n i v . O t o r h i n o l a r y n g o l o g y s h a o h @s n u . a c . k r J u n K e u nC h a n g S e o u l N a t i o n a l U n i v . M E M S j k c h a n g @a me d . s n u . a c . k r S a n g S i k Y a n g A j o uU n i v . M E M S s s y a n g @ma d a n g . a j o u . a c . k r C e l l c h i p J i n S e u n gK i m C h o n b u k N a t i o n a l U n i v . O p t i c s j i n @mo a k . c h o n b u k . a c . k r S e k w a n gP a r k K y u n g p o o k N a t i o n a l U n i v . M E M S s k p a r k @k n u . a c . k r K u k j i nC h u n S e o u l N a t i o n a l U n i v . M E M S k c h u n @mi n t l a b . s n u . a c . k r Y o n g - K w e o nK i m S e o u l N a t i o n a l U n i v . M E M S y o n g k k i m@c h o l l i a n . n e t H o s e o n gK i m C h u n g a n gU n i v . O p t i c a l e n g i n e e r i n g h k i m@c a u . a c . k r P r o t e i n c h i p B y u n g - G e e K i m S e o u l N a t i o n a l U n i v . B i o c h e mi s t r y b y u n g k i m@s n u . a c . k r Y o o n - S i k L e e S e o u l N a t i o n a l U n i v . O r g a n i c s y n t h e s i s y s l e e @s n u . a c . k r