Download Free Analysis Of Electrokinetic Flow In Microfluidic Chips Book in PDF and EPUB Free Download. You can read online Analysis Of Electrokinetic Flow In Microfluidic Chips and write the review.

A lab-on-a-chip device is a microscale laboratory on a credit-card sized glass or plastic chip with a network of microchannels, electrodes, sensors and electronic circuits. These labs on a chip can duplicate the specialized functions as performed by their room-sized counterparts, such as clinical diagnoses, PCR and electrophoretic separation. The advantages of these labs on a chip include significant reduction in the amounts of samples and reagents, very short reaction and analysis time, high throughput and portability. Generally, a lab-on-a-chip device must perform a number of microfluidic functions: pumping, mixing, thermal cycling/incubating, dispensing, and separating. Precise manipulation of these microfluidic processes is key to the operation and performance of labs on a chip. The objective of this book is to provide a fundamental understanding of the interfacial electrokinetic phenomena in several key microfluidic processes, and to show how these phenomena can be utilised to control the microfluidic processes. For this purpose, this book emphasises the theoretical modelling and the numerical simulation of these electrokinetic phenomena in microfluidics. However, experimental studies of the electrokinetic microfluidic processes are also highlighted in sufficient detail. - The first book which systematically reviews electrokinetic microfluidics processes for lab-on-a chip applications - Covers modelling and numerical simulation of the electrokinetic microfluidics processes - Providing information on experimental studies and details of experimental techniques, which are essential for those who are new to this field
Lab-on-a-chip technology permits us to make many important discoveries that can only be observed at the microscale or the nanoscale. Using this technology, biological and biochemical analyses translate into greater sensitivity, more accurate results, and more valuable findings. Authored by one of the field's pioneering researchers, Fundamentals of
Covering all aspects of transport phenomena on the nano- and micro-scale, this encyclopedia features over 750 entries in three alphabetically-arranged volumes including the most up-to-date research, insights, and applied techniques across all areas. Coverage includes electrical double-layers, optofluidics, DNC lab-on-a-chip, nanosensors, and more.
Micro/nanofluidics-based lab-on-a-chip devices have found extensive applications in the analysis of chemical and biological samples over the past two decades. Electrokinetics is the method of choice in these micro/nano-chips for transporting, manipulating, and sensing various analyte species (e.g., ions, molecules, fluids, and particles). This book aims to highlight the recent developments in the field of micro/nano-chip electrokinetics, ranging from the fundamentals of electrokinetics to the applications of electrokinetics to both chemo- and bio-sample handling.
Laboratory Methods in Microfluidics features a range of lab methods and techniques necessary to fully understand microfluidic technology applications. Microfluidics deals with the manipulation of small volumes of fluids at sub-millimeter scale domain channels. This exciting new field is becoming an increasingly popular subject both for research and education in various disciplines of science, including chemistry, chemical engineering and environmental science. The unique properties of microfluidic technologies, such as rapid sample processing and precise control of fluids in assay have made them attractive candidates to replace traditional experimental approaches. Practical for students, instructors, and researchers, this book provides a much-needed, comprehensive new laboratory reference in this rapidly growing and exciting new field of research. - Provides a number of detailed methods and instructions for experiments in microfluidics - Features an appendix that highlights several standard laboratory techniques, including reagent preparation plus a list of materials vendors for quick reference - Authored by a microfluidics expert with nearly a decade of research on the subject
This book is a printed edition of the Special Issue "Micro/Nano-Chip Electrokinetics" that was published in Micromachines
This book attempts to assemble the salient features of electrokinetic transport phenomena into a single text useful for students and engineers. Chapters of the book cover the colloidal state and its implications, electrostatics, transport equations in electrolytic solutions, electrokinetic phenomena in general, electroosmosis and streaming potential phenomena, electrophoresis, sedimentation potential, dispersion forces, coagulation of particles, and deposition of colloidal particles. The final chapter illustrates applications of electrokinetic principles such as electrokinetic salt rejection in porous media, electroosmotic control of hazardous wastes, iontophoretic delivery of drugs, flotation of oil droplets, and bitumen extraction from oil sands. Includes author and subject indexes.
Design Automation Methods and Tools for Microfluidics-Based Biochips deals with all aspects of design automation for microfluidics-based biochips. Experts have contributed chapters on many aspects of biochip design automation. Topics covered include: device modeling; adaptation of bioassays for on-chip implementations; numerical methods and simulation tools; architectural synthesis, scheduling and binding of assay operations; physical design and module placement; fault modeling and testing; and reconfiguration methods.
This comprehensive handbook presents fundamental aspects, fabrication techniques, introductory materials on microbiology and chemistry, measurement techniques, and applications of microfluidics and nanofluidics. The first volume of the handbook focuses on physics and transport phenomena along with life sciences and related applications. It provides newcomers with the fundamental science background required for the study of microfluidics and nanofluidics. In addition, the advanced techniques and concepts described in the text will benefit experienced researchers and professionals.
This book describes the continuing development of inexpensive, portable flow cytometers through incorporation of microfluidic technologies and small optical components. The underlying microfluidic theories essential for microflow cytometry isdiscussed in detail, as well as advances that are representative of the current state-of-the-art. Design and fabrication strategies for these innovative component technologies will be subsequently presented by numerous research groups leading the field. Integration of the components into functional prototype devices for analysis and manipulation of particles and cells are reviewed. Multiple currently available commercial systems are examined to highlight both strengths and areas for improvement.