fundamentals and applications of microfluidics pdf

Fundamentals and applications of microfluidics pdf

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Fundamentals and applications of inertial microfluidics: a review.

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Microfluidics

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Wereley provide electrical and mechanical engineers with complete and current coverage of micro-fluidics — an emerging field involving fluid flow and devices in microscale and nanoscale. This eBook offers a greatly expanded treatment of nanotechnology, electro-kinetics and flow theory. Fundamentals and Applications of Microfluidics book show engineers how to take advantage of the performance benefits of micro-fluidics and serves as an instant reference for state-of-the-art micro-fluidics technology and applications. The wide range of applications discussed includes fluid control devices, gas and fluid measurement devices, medical testing equipment and implantable drug pumps.

Fundamentals and applications of inertial microfluidics: a review.

Skip to Main Content. Now in its Third Edition, the Artech House bestseller, Fundamentals and Applications of Microfluidics, provides engineers and students with the most complete and current coverage of this cutting-edge field. This revised and expanded edition provides updated discussions throughout and features critical new material on microfluidic power sources, sensors, cell separation, organ-on-chip and drug delivery systems, 3D culture devices, droplet-based chemical synthesis, paper-based microfluidics for point-of-care, ion concentration polarization, micro-optofluidics and micro-magnetofluidics.

The book shows how to take advantage of the performance benefits of microfluidics and serves as an instant reference for state-of-the-art microfluidics technology and applications. Readers find discussions on a wide range of applications, including fluid control devices, gas and fluid measurement devices, medical testing equipment, and implantable drug pumps. Professionals get practical guidance in choosing the best fabrication and enabling technology for a specific microfluidic application, and learn how to design a microfluidic device.

Moreover, engineers get simple calculations, ready-to-use data tables, and rules of thumb that help them make design decisions and determine device characteristics quickly.

A not-for-profit organization, IEEE is the world's largest technical professional organization dedicated to advancing technology for the benefit of humanity. Use of this web site signifies your agreement to the terms and conditions. Fundamentals and Applications of Microfluidics, Third Edition Abstract: Now in its Third Edition, the Artech House bestseller, Fundamentals and Applications of Microfluidics, provides engineers and students with the most complete and current coverage of this cutting-edge field.

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Skip to search form Skip to main content You are currently offline. Some features of the site may not work correctly. DOI: Zhang and S. Yan and Dan Yuan and G. Alici and N. Nguyen and Majid Ebrahimi Warkiani and W.

Skip to Main Content. Now in its Third Edition, the Artech House bestseller, Fundamentals and Applications of Microfluidics, provides engineers and students with the most complete and current coverage of this cutting-edge field. This revised and expanded edition provides updated discussions throughout and features critical new material on microfluidic power sources, sensors, cell separation, organ-on-chip and drug delivery systems, 3D culture devices, droplet-based chemical synthesis, paper-based microfluidics for point-of-care, ion concentration polarization, micro-optofluidics and micro-magnetofluidics. The book shows how to take advantage of the performance benefits of microfluidics and serves as an instant reference for state-of-the-art microfluidics technology and applications. Readers find discussions on a wide range of applications, including fluid control devices, gas and fluid measurement devices, medical testing equipment, and implantable drug pumps. Professionals get practical guidance in choosing the best fabrication and enabling technology for a specific microfluidic application, and learn how to design a microfluidic device. Moreover, engineers get simple calculations, ready-to-use data tables, and rules of thumb that help them make design decisions and determine device characteristics quickly.

In the last decade, inertial microfluidics has attracted significant attention and a wide variety of channel designs that focus, concentrate and separate particles and fluids have been demonstrated. In this intermediate range, both inertia and fluid viscosity are finite and bring about several intriguing effects that form the basis of inertial microfluidics including i inertial migration and ii secondary flow. Due to the superior features of high-throughput, simplicity, precise manipulation and low cost, inertial microfluidics is a very promising candidate for cellular sample processing, especially for samples with low abundant targets. In this review, we first discuss the fundamental kinematics of particles in microchannels to familiarise readers with the mechanisms and underlying physics in inertial microfluidic systems. We then present a comprehensive review of recent developments and key applications of inertial microfluidic systems according to their microchannel structures. Finally, we discuss the perspective of employing fluid inertia in microfluidics for particle manipulation. Due to the superior benefits of inertial microfluidics, this promising technology will still be an attractive topic in the near future, with more novel designs and further applications in biology, medicine and industry on the horizon.

Microfluidics

It seems that you're in Germany. We have a dedicated site for Germany. This book describes novel microtechnologies and integration strategies for developing a new class of assay systems to retrieve desired health information from patients in real-time.

Microfluidics introduces the theory and practice of fluid flow on small scales. The exquisite control of such flow at low Reynolds numbers allows liquids to be processed in either a well-defined co-flow or a well-defined segmented-flow fashion. Both lays a ground for high-throughput analytics and advanced materials design. With that, this book is ideal for research scientists and Ph. Gives the fundamentals in the area of microfluidic chemical engineering with handy tips on practical applications.

Now in its Third Edition, the Artech House bestseller, Fundamentals and Applications of Microfluidics, provides engineers and students with the most complete and current coverage of this cutting-edge field. This revised and expanded edition provides updated discussions throughout and features critical new material on microfluidic power sources, sensors, cell separation, organ-on-chip and drug delivery systems, 3D culture devices, droplet-based chemical synthesis, paper-based microfluidics for point-of-care, ion concentration polarization, micro-optofluidics and micro-magnetofluidics. The book shows how to take advantage of the performance benefits of microfluidics and serves as an instant reference for state-of-the-art microfluidics technology and applications.

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It seems that you're in Germany. We have a dedicated site for Germany. Editors: Kakac , S. This volume provides a comprehensive state-of-the-art review of the fundamentals and applications of microfluidics-based microsystems. As the world becomes increasingly concerned with terrorism, early on-the-spot detection of terrorists' weapons, particularly biological agents such as bacteria and viruses are extremely important. Microfluidics are powerful tools for security and anti-terrorism with wide-ranging applications, many of which are presented and discussed in this book.

Microfluidics refers to the behaviour, precise control, and manipulation of fluids that are geometrically constrained to a small scale typically sub-millimeter at which surface forces dominate volumetric forces. It is a multidisciplinary field that involves engineering , physics , chemistry , biochemistry , nanotechnology , and biotechnology. It has practical applications in the design of systems that process low volumes of fluids to achieve multiplexing , automation, and high-throughput screening. Microfluidics emerged in the beginning of the s and is used in the development of inkjet printheads, DNA chips , lab-on-a-chip technology, micro-propulsion, and micro-thermal technologies. Typically microfluidic systems transport, mix, separate, or otherwise process fluids. Various applications rely on passive fluid control using capillary forces , in the form of capillary flow modifying elements, akin to flow resistors and flow accelerators. In some applications, external actuation means are additionally used for a directed transport of the media.

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