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CMOS biosensors for in vitro diagnosis – transducing mechanisms and applications
Lei, K.M.; Mak, P. I.; Law, M. K.; Martins, R. P.
2016-09-01
Source PublicationLab on a Chip
ISSN1473-0197
Pages3664-3681
AbstractComplementary metal oxide semiconductor (CMOS) technology enables low-cost and large-scale integration of transistors and physical sensing materials on tiny chips (e.g., <1 cm2), seamlessly combining the two key functions of biosensors: transducing and signal processing. Recent CMOS biosensors unified different transducing mechanisms (impedance, fluorescence, and nuclear spin) and readout electronics have demonstrated competitive sensitivity for in vitro diagnosis, such as detection of DNA (down to 10 aM), protein (down to 10 fM), or bacteria/cells (single cell). Herein, we detail the recent advances in CMOS biosensors, centering on their key principles, requisites, and applications. Together, these may contribute to the advancement of our healthcare system, which should be decentralized by broadly utilizing point-of-care diagnostic tools.
KeywordCMOS biosensors
Language英語English
The Source to ArticlePB_Publication
PUB ID24971
Document TypeJournal article
CollectionDEPARTMENT OF COMPUTER AND INFORMATION SCIENCE
INSTITUTE OF MICROELECTRONICS
Corresponding AuthorMak, P. I.
Recommended Citation
GB/T 7714		 Lei, K.M.,Mak, P. I.,Law, M. K.,et al. CMOS biosensors for in vitro diagnosis – transducing mechanisms and applications[J]. Lab on a Chip, 2016, 3664-3681.
APA Lei, K.M.., Mak, P. I.., Law, M. K.., & Martins, R. P. (2016). CMOS biosensors for in vitro diagnosis – transducing mechanisms and applications. Lab on a Chip, 3664-3681.
MLA Lei, K.M.,et al."CMOS biosensors for in vitro diagnosis – transducing mechanisms and applications".Lab on a Chip (2016):3664-3681.
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