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To produce a microsystem with favorable performance characteristics for genetic-based analyses, several key operational elements must be strategically chosen, including device substrate material, temperature control, fluidic control and reaction product readout. The advantages afforded by fully integrated microfluidic systems to enable challenging applications, such as single-copy DNA sequencing, single-cell gene expression analysis, pathogen detection, and forensic DNA analysis in formats that provide high throughput and point-of-analysis capabilities must be addressed by the researcher. This…mehr

Produktbeschreibung
To produce a microsystem with favorable performance characteristics for genetic-based analyses, several key operational elements must be strategically chosen, including device substrate material, temperature control, fluidic control and reaction product readout. The advantages afforded by fully integrated microfluidic systems to enable challenging applications, such as single-copy DNA sequencing, single-cell gene expression analysis, pathogen detection, and forensic DNA analysis in formats that provide high throughput and point-of-analysis capabilities must be addressed by the researcher. This book focus on discussion on microfluidic systems that are composed of two or more microdevices directed toward DNA analyses. The discussions primarily focus on the integration of various processing steps with µ-capillary electrophoresis (µCE) with discoveries that have led to the development of fully autonomous and functional integrated systems for genome processing that can supply sample in / answer out capabilities.
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Autorenporträt
Samuel Njoroge is a research scholar from Kenya residing in the USA. He obtained his bachelor degree from Moi University- Kenya in 1999 and his PhD in Bionalytical Chemistry from Louisiana State University, USA in 2011. Currently, he is a postdoctoral scholar in Caltech Nanofabrication Lab of Prof. Axel Scherer.