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High-Throughput Microfluidic Particle Counter Based on Optical Absorption

Authors :
Xian, Qingyue
Luo, Xiao
Zhang, Jie
Wong, Yu Ching
Yang, Siyu
Wen, Weijia
Xian, Qingyue
Luo, Xiao
Zhang, Jie
Wong, Yu Ching
Yang, Siyu
Wen, Weijia
Publication Year :
2024

Abstract

With the utilization of advanced microfluidic techniques, the microfluidic particle counter demonstrates significant potential due to its high efficiency, precise manipulation, and portability. This work focuses on a photodetection counter based on optical absorption. To achieve precise particle detection, a Christmas tree-like structure was implemented to separate a single particle from a cluster, which was then detected in independent multiple parallel channels. The system exhibits a high degree of reliability, as evidenced by a linear correlation coefficient over 0.99 obtained during testing with gradient-concentrated beads. Furthermore, when the calculated density of NIH 3T3 cells is compared with that of a traditional flow cytometer, the system achieves a substantial agreement percentage ranging from 87.5 to 99.9%. The system's ability to perform high-throughput analysis with a high acquisition rate positions it as a promising tool for real-time point-of-care testing.

Details

Database :
OAIster
Notes :
English
Publication Type :
Electronic Resource
Accession number :
edsoai.on1452722514
Document Type :
Electronic Resource