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Tuning AC Electrokinetic Flow to Enhance Nanoparticle Accumulation in Low-Conductivity Solutions
Ahmed Abdelghany,
Yoshiyasu Ichikawa
,
Masahiro Motosuke
機械工学科
研究成果
:
Article
›
査読
3
被引用数 (Scopus)
概要
フィンガープリント
フィンガープリント
「Tuning AC Electrokinetic Flow to Enhance Nanoparticle Accumulation in Low-Conductivity Solutions」の研究トピックを掘り下げます。これらがまとまってユニークなフィンガープリントを構成します。
並べ替え順
重み付け
アルファベット順
Keyphrases
AC Electrokinetics
100%
AC Electrothermal Flow
50%
AC Voltage
25%
Acac
25%
Applied Frequency
25%
Applied Voltage
25%
Aqueous Solution
25%
Complex Behavior
25%
Concentration Enhancement
25%
Concentration Factor
25%
Concentration Performance
25%
Electrode Gap
25%
Electrokinetic Flow
100%
Electroosmosis
25%
Field Strength
25%
Flow Effect
25%
Flow Pattern
25%
Fold Enrichment
25%
Frequency Accumulation
50%
High Concentration
25%
High Frequency AC
25%
Highly Sensitive
25%
Hydrodynamic Flow
25%
Induced Vortex
25%
Liquid Sample
25%
Low Conductive Solutions
100%
Low Conductivity
25%
Microfluidic System
25%
Microfluidic Technique
25%
Nanomaterial Characterization
25%
Nanoparticle Accumulation
100%
Nanoparticle Manipulation
25%
Nanoparticle Trapping
25%
Nanoparticles
25%
Particle Trapping
25%
Polystyrene Nanoparticles
25%
Vortex Trapping
25%
Engineering
Applied Frequency
14%
Applied Voltage
14%
Aqueous Solution
14%
Characterization of Nanomaterials
14%
Concentration Factor
14%
Conductive
14%
Electrode Gap
14%
Field Strength
14%
Flow Distribution
14%
Hydrodynamics
14%
Initial Concentration
14%
Nanoparticle
100%
Powerful Tool
14%
Vortex
14%
Material Science
Hydrodynamics
14%
Nanoparticle
100%
Nanostructured Material
14%
Polystyrene
14%
Vortex
14%
Chemical Engineering
Nanoparticle
100%
Polystyrene
14%