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Micro- and nano-fabrication of polymer based microfluidic platforms for BioMEMS applications
Siyi Lai,
L. James Lee
*
, Liyong Yu, Kurt W. Koelling, Marc J. Madou
*
此作品的通信作者
生物藥學研究所
研究成果
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同行評審
13
引文 斯高帕斯(Scopus)
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Keyphrases
Microfabrication
100%
Nanofabrication
100%
Polymer-based
100%
Micro-nano
100%
Microfluidic Platform
100%
BioMEMS
100%
Channel Surface
66%
Resin
66%
Gas Injection
66%
Well-defined
33%
Lithography Technology
33%
Surface Modification
33%
Submicron
33%
Hydrophilicity
33%
Nanometer Scale
33%
Mass Production
33%
Masking Scheme
33%
Flow Path
33%
Imprinting Technique
33%
Nanoimprint Lithography
33%
Channel Size
33%
Surface Characteristics
33%
Microfluidic Device
33%
Electroplating Technology
33%
Control Station
33%
Protein Adsorption
33%
Submicron-sized
33%
Bioseparation
33%
Assist Techniques
33%
Chemical Separation
33%
Miniaturized Device
33%
Channel Shape
33%
Precision Motion Control
33%
Thin Polymer Layer
33%
Size Characteristics
33%
Molding Technology
33%
Nanoscale Features
33%
UV Lithography
33%
Shape Characteristics
33%
Tissue Growth
33%
Immunoprotection
33%
Micro-nano Fabrication
33%
Local Modification
33%
Nanofilter
33%
Sub-nanoscale
33%
Producing Well
33%
Ultra-precision
33%
UV Molding
33%
Engineering
Microfabrication
100%
Nano-Fabrication
100%
Microfluidic Platform
100%
Gas Injection
100%
Nanoscale
50%
Nanometre
50%
Thin Layer
50%
Lithography
50%
Microscale
50%
Optical Lithography
50%
Flow Path
50%
Motion Control
50%
Nanofabrication Process
50%
Electroplating Technology
50%
Protein Adsorption
50%
Bioseparation
50%
Moulding Technology
50%
Nanofilters
50%
Hydrophilicity
50%
Mass Production
50%
Microfluidic Device
50%