Reprint
Micro/Nano-Chip Electrokinetics, Volume III
Edited by
February 2021
228 pages
- ISBN978-3-0365-0048-5 (Hardback)
- ISBN978-3-0365-0049-2 (PDF)
This book is a reprint of the Special Issue Micro/Nano-Chip Electrokinetics, Volume III that was published in
Chemistry & Materials Science
Engineering
Physical Sciences
Summary
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.
Format
- Hardback
License
© 2022 by the authors; CC BY-NC-ND license
Keywords
electrokinetic micromixer; induced-charge electroosmosis; field-induced Debye screening; AC field-effect flow control; electrochemical ion relaxation; Electroosmosis; Power-law fluid; Non-Newtonian fluid; Asymmetric zeta potential; organ-on-a-chip; biosensors; biomedical; microfluidics; in vivo models; applications; Microfilter; Dielectrophoresis; Particle separation, micropillar; multi-layer structure; electroosmotic flow (EOF) pump; parallel fluid channels; liquid metal electrodes; microfluidic particle concentrator; continuous and switchable particle flow-focusing; composite electrode arrangement; induced-charge electroosmosis; field-effect flow control; multifrequency induced-charge electroosmosis; simultaneous pumping and convective mixing; dual-Fourier-mode AC forcing; traveling-wave/standing-wave AC electroosmosis; microfluidics; bacteriophage; dielectrophoresis; electric field; electrophoresis; electrokinetics; virus; time-periodic electroosmotic flow; heterogeneous surface charge; cylindrical microchannel; stream function; micro-mixing; cross-membrane voltage; ion concentration polarization; desalination effect; pump effect; eddy current; electroosmotic flow; viscoelastic fluid; nanofluidics; ionic conductance; electrical double layer; dielectrophoresis; droplet; electrohydrodynamics; phase field method; non-uniform electric field; electroosmotic flow; viscoelastic fluid; Linear Phan-Thien–Tanner (LPTT); pH; electrical double layer; tunable focus; liquid lens; electrohydrodynamics; charge injection; characterization; dielectrophoresis; carbon electrodes; three-dimensional (3D); diagnostics; Candidiasis; n/a