000			04282naaaa2201105uu 4500
001			https://directory.doabooks.org/handle/20.500.12854/68403
005			20220220074052.0
020			_abooks978-3-0365-0049-2
020			_a9783036500485
020			_a9783036500492
024	7		_a10.3390/books978-3-0365-0049-2 _cdoi
041	0		_aEnglish
042			_adc
072		7	_aTBX _2bicssc
100	1		_aXuan, Xiangchun _4edt
700	1		_aQian, Shizhi _4edt
700	1		_aXuan, Xiangchun _4oth
700	1		_aQian, Shizhi _4oth
245	1	0	_aMicro/Nano-Chip Electrokinetics, Volume III
260			_aBasel, Switzerland _bMDPI - Multidisciplinary Digital Publishing Institute _c2021
300			_a1 electronic resource (228 p.)
506	0		_aOpen Access _2star _fUnrestricted online access
520			_aMicro/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.
540			_aCreative Commons _fhttps://creativecommons.org/licenses/by/4.0/ _2cc _4https://creativecommons.org/licenses/by/4.0/
546			_aEnglish
650		7	_aHistory of engineering & technology _2bicssc
653			_aelectrokinetic micromixer
653			_ainduced-charge electroosmosis
653			_afield-induced Debye screening
653			_aAC field-effect flow control
653			_aelectrochemical ion relaxation
653			_aElectroosmosis
653			_aPower-law fluid
653			_aNon-Newtonian fluid
653			_aAsymmetric zeta potential
653			_aorgan-on-a-chip
653			_abiosensors
653			_abiomedical
653			_amicrofluidics
653			_ain vivo models
653			_aapplications
653			_aMicrofilter
653			_aDielectrophoresis
653			_aParticle separation, micropillar
653			_amulti-layer structure
653			_aelectroosmotic flow (EOF) pump
653			_aparallel fluid channels
653			_aliquid metal electrodes
653			_amicrofluidic particle concentrator
653			_acontinuous and switchable particle flow-focusing
653			_acomposite electrode arrangement
653			_afield-effect flow control
653			_amultifrequency induced-charge electroosmosis
653			_asimultaneous pumping and convective mixing
653			_adual-Fourier-mode AC forcing
653			_atraveling-wave/standing-wave AC electroosmosis
653			_abacteriophage
653			_adielectrophoresis
653			_aelectric field
653			_aelectrophoresis
653			_aelectrokinetics
653			_avirus
653			_atime-periodic electroosmotic flow
653			_aheterogeneous surface charge
653			_acylindrical microchannel
653			_astream function
653			_amicro-mixing
653			_across-membrane voltage
653			_aion concentration polarization
653			_adesalination effect
653			_apump effect
653			_aeddy current
653			_aelectroosmotic flow
653			_aviscoelastic fluid
653			_ananofluidics
653			_aionic conductance
653			_aelectrical double layer
653			_adroplet
653			_aelectrohydrodynamics
653			_aphase field method
653			_anon-uniform electric field
653			_aLinear Phan-Thien–Tanner (LPTT)
653			_apH
653			_atunable focus
653			_aliquid lens
653			_acharge injection
653			_acharacterization
653			_acarbon electrodes
653			_athree-dimensional (3D)
653			_adiagnostics
653			_aCandidiasis
653			_an/a
856	4	0	_awww.oapen.org _uhttps://mdpi.com/books/pdfview/book/3419 _70 _zDOAB: download the publication
856	4	0	_awww.oapen.org _uhttps://directory.doabooks.org/handle/20.500.12854/68403 _70 _zDOAB: description of the publication
999			_c73882 _d73882