While similar books concentrate only on microfluidics or nanotechnology, this book describes integrated approaches for the detection of single cells and molecules. Focusing exclusively on biological and chemical targets, it explores state-of-the-art physical, chemical, contact, and noncontact detection methods, explaining the theory behind the different techniques. By highlighting a variety of technologies, the text allows for a comparison of the fundamental advantages and challenges of each, as well as an appreciation of the power of leveraging scalability and integration to achieve sensitivity at low cost.…mehr
While similar books concentrate only on microfluidics or nanotechnology, this book describes integrated approaches for the detection of single cells and molecules. Focusing exclusively on biological and chemical targets, it explores state-of-the-art physical, chemical, contact, and noncontact detection methods, explaining the theory behind the different techniques. By highlighting a variety of technologies, the text allows for a comparison of the fundamental advantages and challenges of each, as well as an appreciation of the power of leveraging scalability and integration to achieve sensitivity at low cost.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Dr. Eric T. Lagally holds a Ph.D from the University of California (UC)-Berkeley/UC-San Francisco Graduate Program in Bioengineering, USA. Currently, he is a faculty member at Western Governors University, Salt Lake City, Utah, USA. Previously, he founded and consulted for Lagally Consulting, and served as assistant professor at the University of British Columbia, Vancouver, Canada, where his research program was responsible for developing multiplexed surface plasmon resonance microfluidics as well as dielectrophoresis chips for whole-cell detection of Mycobacterium tuberculosis. A co-inventor on patents for microfluidic valve technologies and aptamer selection techniques, he has published numerous peer-reviewed, conference-proceeding, and review papers and chapters in edited books. Dr. Krzysztof (Kris) Iniewski is managing R&D at Redlen Technologies Inc., Vancouver, British Columbia, Canada, a leading manufacturer of high resolution cadmium zinc telluride semiconductor radiation detectors. He is also president of CMOS Emerging Technologies Research Inc., Coquitlam, British Columbia, Canada, an organization hosting high-tech events on communications, microsystems, optoelectronics, and sensors. A popular speaker and consultant, he has published over 100 research papers, written and edited several books, and held faculty and management positions at University of Toronto, Ontario, Canada; University of Alberta, Edmonton, Canada; Simon Fraser University, Burnaby, British Columbia, Canada; and PMC-Sierra Inc., Burnaby, British Columbia, Canada.
Inhaltsangabe
Toward Unsupervised Smart Chemical Sensor Arrays. Active CMOS Biochip for Electrochemical DNA Assays. Label Free DNA Sensor Based on a Surface Long Period Grating. Measuring the Physical Properties of Cells. Technologies for Low Cost, Hall Effect Based Magnetic Immunosensors. Two Dimensional Paper Networks for Automated Multistep Processes in Point of Care Diagnostics. Droplet Based Digital Microfluidics for Single Cell Genetic Analysis. Droplet Based Microfluidics for Biological Sample Preparation and Analysis. A Review of Tubeless Microfluidic Devices.
Toward Unsupervised Smart Chemical Sensor Arrays. Active CMOS Biochip for Electrochemical DNA Assays. Label Free DNA Sensor Based on a Surface Long Period Grating. Measuring the Physical Properties of Cells. Technologies for Low Cost, Hall Effect Based Magnetic Immunosensors. Two Dimensional Paper Networks for Automated Multistep Processes in Point of Care Diagnostics. Droplet Based Digital Microfluidics for Single Cell Genetic Analysis. Droplet Based Microfluidics for Biological Sample Preparation and Analysis. A Review of Tubeless Microfluidic Devices.
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