Jun P. Han scite author profile

Jun P. Han

2Publications

17Citation Statements Received

46Citation Statements Given

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Affiliations

Institute of Forensic Science, Ministry of Public Security of the People's Republic of China, Shanghai Public Security Bureau

Publications

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The Optimization of Electrophoresis on a Glass Microfluidic Chip and its Application in Forensic Science

Han

Sun

Wang

et al. 2017

Journal of Forensic Sciences

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Microfluidic chips offer significant speed, cost, and sensitivity advantages, but numerous parameters must be optimized to provide microchip electrophoresis detection. Experiments were conducted to study the factors, including sieving matrices (the concentration and type), surface modification, analysis temperature, and electric field strengths, which all impact the effectiveness of microchip electrophoresis detection of DNA samples. Our results showed that the best resolution for ssDNA was observed using 4.5% w/v (7 M urea) lab-fabricated LPA gel, dynamic wall coating of the microchannel, electrophoresis temperatures between 55 and 60°C, and electrical fields between 350 and 450 V/cm on the microchip-based capillary electrophoresis (μCE) system. One base-pair resolution could be achieved in the 19-cm-length microchannel. Furthermore, both 9947A standard genomic DNA and DNA extracted from blood spots were demonstrated to be successfully separated with well-resolved DNA peaks in 8 min. Therefore, the microchip electrophoresis system demonstrated good potential for rapid forensic DNA analysis.

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Separation of DNA in Microfluidic Systems

Craighead¹,

Han²,

Turner³

2000

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It is possible to fabricate fluidic systems with dimensions comparable to the size of DNA molecules. By controlling the time and spatial dependence of electric fields one can drive, sort and separate molecules by a variety of physical mechanisms. We have created nanoconstrictions in fluidic channels that act as entropic barriers to DNA motion. We have used the size dependence of these entropic effects to separate DNA. In this paper we describe the design and fabrication two such types of devices and their performance.

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Jun P. Han

The Optimization of Electrophoresis on a Glass Microfluidic Chip and its Application in Forensic Science

Separation of DNA in Microfluidic Systems

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