DOCSLIB.ORG
Explore
Sign Up
Log In
Upload
Search
Home
» Tags
» Debye length
Debye length
Microfluidics
Screened Electrostatic Interaction of Charged Colloidal Particles in Nonpolar Liquids Carlos Esteban Espinosa
The Electrostatic Screening Length in Concentrated Electrolytes Increases with Concentration
Electrophoresis of Charged Macromolecules
Electrical Double Layer Interactions with Surface Charge Heterogeneities
Open Rxg276 Final Thesis 2017.Pdf
Nanofluidics: a Pedagogical Introduction Simon Gravelle
Arxiv:2007.11114V2 [Cond-Mat.Soft] 18 Nov 2020 Tering and Device Clogging
Debye Length Dependence of the Anomalous Dynamics of Ionic Double Layers in a Parallel Plate Capacitor R
10.626 Lecture Notes, Electrostatic Correlations
1 Transport-Induced Inversion of Screening Ionic Charges In
Introduction to Plasma Physics
Effect of Particle Size and Debye Length on Order Parameters of Colloidal Silica Suspensions Under Confinement
Gate Potential Control of Nanofluidic Devices LIBRARIES
Field-Driven Splitting of Pure Water for Hydrogen Production
Failure of Debye-Hückel Screening in Low-Charge Colloidal Suspensions
Mesoporous Structure Favorable for High Voltage and High Energy OPEN ACCESS Supercapacitor Based on Green Tea Waste-Derived Activated Carbon
Ions in an AC Electric Field Strong: Strong Long-Range Repulsion Between Oppositely Charged Surfaces Lukasz Richter, Pawel J
Top View
Copyright and Use of This Thesis This Thesis Must Be Used in Accordance with the Provisions of the Copyright Act 1968
Long-Range Repulsion of Colloids Driven by Ion Exchange and Diffusiophoresis
Convection Associated with Exclusion Zone Formation in Colloidal Suspensions Cite This: Soft Matter, 2016, 12, 1127 Sami Musa,†A Daniel Florea,†Ab Hans M
Calculating Particle Valence from Electrophoretic Mobility Kevin Mattison, Malvern Panalytical
Effect of Salt Concentration on the Electrophoretic Speed of A
Dynamic Double Layer Force Between Charged Surfaces
Controlling Ion Transport Through Nanopores: Modeling Transistor Behavior — 2/14 It
Chapter 1 Introduction
10.626 Lecture Notes, Diffuse Charge in Electrolytes
Electrostatic Forces & the Electrical Double Layer
ZETA POTENTIAL and COLLOID CHEMISTRY Eric Olson
Open Thesis FINAL Sporer.Pdf
Local and Global Force Balance for Diffusiophoretic Transport S
Particle Motion in Electrolytes Under Direct Current Raúl A
Physics 138 Plasma Physics 2003 Seminar 1 Presentation (Mb)
Underscreening in Concentrated Electrolytes
Double-Layer Capacitance on a Rough Metal Surface
Underscreening, Overscreening and Double-Layer Capacitance
Electrokinetic Phenomena Deen 15.4-15.5 Ψ
Chapter 4 Nanofluidics
The Pennsylvania State University
Light-Driven Diffusioosmosis: the Manipulation of Colloids Using Azobenzene Containing Surfactant
A Simulation Analysis of Nanofluidic Ion Current Rectification Using A
Nanofluidics in the Debye Layer at Hydrophilic and Hydrophobic
Electro Kinetic Phenomena
Electrostatic Control of Ions and Molecules in Nanofluidic Transistors
Computational Study of Differential Capacitance-Double
Polyelectrolytes Michael Rubinstein (UNC-CH)
Failure of Debye-Hückel Screening in Low-Charge Colloidal Suspensions
Zeta Potential Is the “Effectiveness” of the Surface Charge in Solution
ION and MOLECULE TRANSPORT in NANOCHANNELS By