DocumentCode
3259871
Title
Integration of microfluidic system with silicon nanowires biosensor for multiplexed detection
Author
Anran Gao ; Pengfei Dai ; Na Lu ; Tie Li ; Yuelin Wang ; Hemmila, Samu ; Kallio, Pasi
Author_Institution
Shanghai Inst. of Microsyst. & Inf. Technol., Shanghai, China
fYear
2013
fDate
26-30 Aug. 2013
Firstpage
333
Lastpage
336
Abstract
This paper propose a novel method of integration microfluidic sample delivery system with silicon nanowire (SiNW) biosensor device, which provide multiplexed detection capability as well as protect the fragile sensing elements from mechanical shocks and surrounding impurities. The SiNWs and PDMS chips were fabricated with complementary metal oxide semiconductor (CMOS) compatibility and low cost methods. They were integrated together by using optimal O2 plasma parameters that enabled rapid and leakage-free bond formation, without additional heating or applied pressure. Capillary action enabled by the hydrophilicity of the channels using polyvinylpyrrolidone (PVP) was also demonstrated to allow analyte solution delivery onto the sensor array directly, exclude the need of using external pumping devices.
Keywords
CMOS integrated circuits; biosensors; capillarity; elemental semiconductors; hydrophilicity; lab-on-a-chip; microchannel flow; nanofabrication; nanosensors; nanowires; polymers; sensor arrays; silicon; CMOS; PDMS chips; Si; analyte solution delivery; capillary action; complementary metal oxide semiconductor compatibility; fragile sensing elements; hydrophilicity; leakage-free bond formation; mechanical shocks; microfluidic sample delivery system; microfluidic system; multiplexed detection capability; optimal O2 plasma parameters; polyvinylpyrrolidone; sensor array; silicon nanowire biosensor; Biosensors; Microfluidics; Nanowires; Plasmas; Plastics; Silicon; Surface treatment; O2 plasma; SiNW biosensor; hydrophilic channel; microfluidic system; multiplexed detection;
fLanguage
English
Publisher
ieee
Conference_Titel
Manipulation, Manufacturing and Measurement on the Nanoscale (3M-NANO), 2013 International Conference on
Conference_Location
Suzhou
Print_ISBN
978-1-4799-1210-0
Type
conf
DOI
10.1109/3M-NANO.2013.6737444
Filename
6737444
Link To Document