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[기계전공세미나-열공학특강] Guided Self-Assembly for Smart Scalable Systems
1. 제 목 : Guided Self-Assembly for Smart Scalable Systems :
Optofluidic Maskless Lithography, Railed Microfluidics and Encoded Particles
2. 연 사 : 권성훈 교수(서울대 전기공학부)
3. 일 시 : 2008년 3월 21일(금) 16:30-17:30
4. 장 소 : 301동 301호
5. 내 용 :
There are two different fabrication methods for building complex micro
devices: top-down and bottom-up approaches. Top-down approach
based on conventional photolithography brought us amazing CMOS
manufacturing triumph but it’s facing a fundamental limit in the scaling
and cost. Recently, various bottom-up manufacturing technologies get
the attention to overcome the limit of top-down manufacturing. Self-
assembly is one promising way to lower manufacturing cost down
significantly.
In this talk, I will present the concept of smart scalable system, a new
bottom-up view point of building complex systems. First, optofluidic
maskless lithography will be presented as a first step for smart particle
generation. Second, various fluidic self-assembly technology such as
railed microfluidics will be presented as smart particle assembly method.
Then I will end with a few application examples such as encoded particle
based scalable biosensor or scalable displays.
6. 연사약력 :
<Education>
1994-1998 Seoul National University, B.S
1998-2000 Seoul National University, M.S
2000-2004 UC Berkeley, Ph.D
<Career>
2004-2006 Postdoctorial Researcher, Lawrence Berkeley National Lab
2006-present Faculty member, School of Electrical Engineering,
Seoul National University,
<Research Area>
Nanofabrication, Biophotonics, BioMEMS, Self-Assembly
7. 문 의 : 기계항공공학부 안성훈 교수(☏ 880-7110)
Optofluidic Maskless Lithography, Railed Microfluidics and Encoded Particles
2. 연 사 : 권성훈 교수(서울대 전기공학부)
3. 일 시 : 2008년 3월 21일(금) 16:30-17:30
4. 장 소 : 301동 301호
5. 내 용 :
There are two different fabrication methods for building complex micro
devices: top-down and bottom-up approaches. Top-down approach
based on conventional photolithography brought us amazing CMOS
manufacturing triumph but it’s facing a fundamental limit in the scaling
and cost. Recently, various bottom-up manufacturing technologies get
the attention to overcome the limit of top-down manufacturing. Self-
assembly is one promising way to lower manufacturing cost down
significantly.
In this talk, I will present the concept of smart scalable system, a new
bottom-up view point of building complex systems. First, optofluidic
maskless lithography will be presented as a first step for smart particle
generation. Second, various fluidic self-assembly technology such as
railed microfluidics will be presented as smart particle assembly method.
Then I will end with a few application examples such as encoded particle
based scalable biosensor or scalable displays.
6. 연사약력 :
<Education>
1994-1998 Seoul National University, B.S
1998-2000 Seoul National University, M.S
2000-2004 UC Berkeley, Ph.D
<Career>
2004-2006 Postdoctorial Researcher, Lawrence Berkeley National Lab
2006-present Faculty member, School of Electrical Engineering,
Seoul National University,
<Research Area>
Nanofabrication, Biophotonics, BioMEMS, Self-Assembly
7. 문 의 : 기계항공공학부 안성훈 교수(☏ 880-7110)