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相关概念视频

The Electrical Double Layer01:30

The Electrical Double Layer

In the region where two bulk phases meet, an intricate electric charge distribution arises due to charge transfer, ion adsorption, molecular orientation, and charge distortion. This complex distribution is commonly referred to as the electrical double layer.When a solid electrode interfaces with ions in an electrolyte solution, the speed of electron transfer dictates the rates of oxidation and reduction. The electrode acquires a charge through the escape of atoms into the solution as cations or...
Standard Electrode Potentials03:02

Standard Electrode Potentials

On comparing the reactivity of silver and lead, it is observed that the two ionic species, Ag+ (aq) and Pb2+ (aq), show a difference in their redox reactivity towards copper: the silver ion undergoes spontaneous reduction, while the lead ion does not. This relative redox activity can be easily quantified in electrochemical cells by a property called cell potential. This property is commonly known as cell voltage in electrochemistry, and it is a measure of the energy which accompanies the charge...
Processes at Electrodes01:30

Processes at Electrodes

The electrode interacts with ions in the electrolyte solution at its interface. The rate of oxidation and reduction depends on the speed at which electrons can transfer through this interface. As ions attach to or leave the electrode surface, the electrode acquires a charge, and an electrical potential forms across the interface, making the process more difficult to reach equilibrium. The charge on the electrode affects the local ion concentrations in the solution, though thermal motion...
Electrochemical Systems01:24

Electrochemical Systems

Electrochemical systems provide a fascinating insight into the dynamic interplay of charged species within various phases. One notable example is the interaction between a membrane permeable to K⁺ ions but not to Cl⁻ ions, separating an aqueous KCl solution from pure water. As K⁺ ions diffuse through the membrane, they generate net charges on each phase, leading to a potential difference between them.Similarly, when a piece of Zn is immersed in an aqueous ZnSO₄ solution, the Zn metal, composed...
Types of Reversible Electrodes01:24

Types of Reversible Electrodes

For electrode reversibility to be maintained, all the reactants and products involved in the half-reaction must be present at the electrode. There are several types of reversible electrodes (half-cells).In metal-metal-ion electrodes, a metal balances electrochemically with a solution of its own ions. Examples are Cu2+|Cu and Zn2+|Zn. Metals that react with the solvent, like group 1 and most group 2 metals, which react with water, and zinc, which reacts with aqueous acidic solutions, cannot be...
Voltammetry: Overview01:20

Voltammetry: Overview

Voltammetry is an electroanalytical technique in which the current flowing through an electrochemical cell is measured as a function of applied potential, typically under conditions of concentration polarization. The technique provides valuable information about redox-active species, and the current response is plotted as a voltammogram.
A voltammetric cell uses three electrodes: a working electrode, a reference electrode, and an auxiliary electrode. The redox reactions occur in the working...

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Updated: Jun 12, 2026

Three-electrode Coin Cell Preparation and Electrodeposition Analytics for Lithium-ion Batteries
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Published on: May 22, 2018

二维双极电化学二维双极电化学

Stephen E Fosdick1, John A Crooks, Byoung-Yong Chang

  • 1Department of Chemistry and Biochemistry, Center for Electrochemistry, The University of Texas at Austin, University Station, A5300, Austin, Texas 78712-0165, USA.

Journal of the American Chemical Society
|June 19, 2010
PubMed
概括
此摘要是机器生成的。

这项研究引入了二维双极电化学,使局部电化学反应能够在二维双极电极 (2D-BPE) 上进行. 在微流体通道内精确的电场控制决定了2D-BPE周围的反应点.

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Three-electrode Coin Cell Preparation and Electrodeposition Analytics for Lithium-ion Batteries
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A Standard and Reliable Method to Fabricate Two-Dimensional Nanoelectronics
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科学领域:

  • 电化学 电化学 电化学
  • 微流体学 微流体学
  • 电气工程 电气工程

背景情况:

  • 双极电化学通常涉及一维电极.
  • 对电化学反应的精确空间控制对于各种应用至关重要.
  • 微流体系统为微型电化学设备提供平台.

研究的目的:

  • 介绍和解释二维双极电化学 (2D-BPE) 的操作原理.
  • 在2D-BPE上演示电化学反应的局部化.
  • 在微流体通道中研究2D-BPEs周围的电场分布.

主要方法:

  • 在直角微流体通道的交叉点上的二维双极电极 (2D-BPE) 的配置.
  • 在电解质溶液中操纵电场以控制反应局部化.
  • 在2D-BPEs附近的电场的实验测绘.
  • 实验结果与有限元模拟的比较.

主要成果:

  • 电化学反应可以精确地定位到2D-BPE的特定周边位置.
  • 电场控制是实现反应局部化的关键机制.
  • 实验电场地图显示了与有限元模型预测的半定量一致.

结论:

  • 二维双极电化学是空间控制的电化学反应的可行概念.
  • 在微流体通道中的2D-BPE配置允许有针对性的电化学活性.
  • 电场模拟对于理解和预测2D-BPE行为非常有价值.