Reprint
Micromachines for Dielectrophoresis, Volume II
Edited by
April 2023
232 pages
- ISBN978-3-0365-7301-4 (Hardback)
- ISBN978-3-0365-7300-7 (PDF)
This is a Reprint of the Special Issue Micromachines for Dielectrophoresis, Volume II that was published in
Chemistry & Materials Science
Engineering
Physical Sciences
Summary
Dielectrophoresis (DEP) continues to be an effective technique for the label-free identification and manipulation of targeted particles in multiple applications. This second volume of the "Micromachines for Dielectrophoresis" series includes 13 novel contributions to the field in aspects ranging from fundamentals and theoretical modeling to applications.
Format
- Hardback
License and Copyright
© 2022 by the authors; CC BY-NC-ND license
Keywords
dielectrophoresis (DEP); semiconducting carbon nanotubes; carbon nanotube field-effect transistors (CNTFETs); electrokinetics of metallodielectric Janus particles; dipolophoresis; dielectrophoresis; induced-charge electrophoresis; travelling waves and non-uniform fields; electrorotation; levitation and stability; dielectrophoresis; microfluidics; single cell; single bacterium; flow cytometer; electrophoretic displays; driving waveform; damping oscillation; particles separation; red saturation; cell characterization; cell separation; dielectrophoresis (DEP); interdigitated electrodes (IDEs); microfluidics; CMOS-based lab-on-a-chip; dielectrophoresis; microfluidics; metal droplet driving; DEP force in narrow volumes; capacitor charge cycle; micro-fluidic volumes; DEP trajectories; 2D and 3D modelling; DEP-induced polarizability increase; conditioned polarization; lossy dispersive materials; thermodynamics; Rayleigh’s dissipation function; law of maximum entropy production (LMEP); dielectrophoresis; chondrocyte; mechanical anisotropy; tissue engineering; cell patterning; Brownian dynamics; Lab-on-a-chip; Langevin equation; dielectrophoresis; optical trap; Clausius–Mossotti function; dielectric beta-dispersion; dielectrophoresis; electrokinetics; Lorentz cavity; Maxwell cavity; molecular dynamics simulations; proteins; electric curtain; electrostatics; dielectrophoresis; dielectrophoresis; upconcentration; microfluidics; nanoparticles; system’s perspective; MatLab® model; microfluidics; DEP trajectory; LMEP; protein dielectrophoresis; virus trapping; LOC; μTAS; force spectroscopy; n/a