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Electrokinetically-Driven Microfluidics and Nanofluidics

Autor Hsueh-Chia Chang, Leslie Y. Yeo
en Limba Engleză Hardback – 8 noi 2009
Electrokinetics is currently the mechanism of choice for fluid actuation and bioparticle manipulation at microscale and nanoscale dimensions. There has recently been interest in the use of AC electric fields, given the many advantages it offers over DC electrokinetics. Nevertheless, a fundamental understanding of the governing mechanisms underlying the complex and nonlinear physicochemical hydrodynamics associated with these systems is required before practical microfluidic and nanofluidic devices can be engineered. This text aims to provide a comprehensive treatise on both classical equilibrium electrokinetic phenomena as well as the more recent non-equilibrium phenomena associated with both DC and AC electrokinetics in the context of their application to the design of microfluidic and nanofluidic technology. In particular, Leslie Yeo and Hsueh-Chia Chang discuss the linear and nonlinear theories underlying electroosmosis, electrophoresis, and dielectrophoresis pertaining to electrolytes as well as dielectric systems. Interfacial electrokinetic phenomena such as electrospraying, electrospinning, and electrowetting are also discussed.
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Specificații

ISBN-13: 9780521860253
ISBN-10: 0521860253
Pagini: 526
Ilustrații: 283 b/w illus.
Dimensiuni: 184 x 259 x 28 mm
Greutate: 1.09 kg
Editura: Cambridge University Press
Colecția Cambridge University Press
Locul publicării:New York, United States

Cuprins

1. Introduction and fundamental concepts; 2. Classical equilibrium theory due to surface changes; 3. Electroosmotic transport; 4. Electrophoretic transport and separation; 5. Field-induced dielectric polarization; 6. DC nonlinear electrokinetics due to field-induced double layer polarization; 8. Dielectrophoresis and electrorotation - double layer effects; 9. Electrohydrodynamic atomization, electrospinning and discharge driven vortices.

Notă biografică


Descriere

This book provides a fundamental understanding of the mechanisms governing both DC and AC electrokinetic phenomena.