Huihua Yang scite author profile

An integrated and simplified microfluidic device using a 250 microm x 1-4 cm of organic light emitting diode (OLED) array as a two-dimensional light source for single-channel and multichannel whole-column imaging detection was developed. This fluorescence detection system was used for isoelectric focusing (IEF) of R-phycoerythrin in a microchip. The IEF conditions were optimized, and the total analysis time was extremely reduced to 30 s for 2-cm-long microchannels at 700 V/cm of electric field strength without the presence of electroosmotic flow. The compression of pH gradient caused by electrolytes drawing into the microchannels was efficiently restrained when 1% hydroxylpropylmethyl cellulose in 2% ampholyte was used as the carrier for IEF. Under optimized IEF conditions, the detection limit of this system was approximately 0.6 microg/mL or 45 pg at 75 nL/column injection of R-phycoerythrin. This OLED-induced fluorescence detection system for WCID provides a high-speed IEF technique with quantitative ability and the potential for high integration and throughput microchip systems.

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High conductivity catalyst structures for applications in exothermic reactions

Sheng

Yang

Cahela

et al. 2012

Applied Catalysis A: General

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Accurate segmentation of nuclei in pathological images via sparse reconstruction and deep convolutional networks

et al. 2017

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Huihua Yang

Novel catalyst structures with enhanced heat transfer characteristics

High-Speed, Whole-Column Fluorescence Imaging Detection for Isoelectric Focusing on a Microchip Using an Organic Light Emitting Diode as Light Source

High conductivity catalyst structures for applications in exothermic reactions

Accurate segmentation of nuclei in pathological images via sparse reconstruction and deep convolutional networks

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