Atomic Force Microscopy-Scanning Electrochemical Microscopy: Influence of Tip Geometry and Insulation Defects on Diffusion Controlled Currents at Conical Electrodes

Kelly Leonhardt; Amra Avdic; Alois Lugstein; Ilya Pobelov; Thomas Wandlowski; Ming Wu; Bernhard Gollas; Guy Denuault

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Atomic Force Microscopy-Scanning Electrochemical Microscopy: Influence of Tip Geometry and Insulation Defects on Diffusion Controlled Currents at Conical Electrodes

机译：原子力显微镜扫描电化学显微镜：尖端几何形状和绝缘缺陷对锥形电极上扩散控制电流的影响

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Numerical simulations were performed to predict the amperometric response of conical electrodes used as atomic force microscopy-scanning electrochemical microscopy (AFM-SECM) probes. A simple general expression was derived which predicts their steady state limiting current as a function of their insulation sheath thickness and cone aspect ratio. Simulated currents were successfully compared with experimental currents. Geometrical parameters such as insulation angle and tip bluntness were then studied to determine their effect on the limiting current. Typical tip defects were also modeled using 3D simulations, and their influence on the current was quantified. Although obtained for SECM-AFM probes, these results are directly applicable to conical micro- and nanoelectrodes.

机译：进行数值模拟以预测用作原子力显微镜扫描电化学显微镜（AFM-SECM）探针的锥形电极的安培响应。推导了一个简单的通用表达式，该表达式预测了它们的稳态极限电流是其绝缘护套厚度和锥长比的函数。模拟电流已成功与实验电流进行了比较。然后研究了诸如绝缘角和尖端钝度之类的几何参数，以确定它们对极限电流的影响。还使用3D模拟对典型的尖端缺陷进行了建模，并量化了它们对电流的影响。尽管获得了SECM-AFM探针，但这些结果直接适用于锥形微电极和纳米电极。

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《Analytical chemistry》 |2011年第8期|共7页
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Kelly Leonhardt; Amra Avdic; Alois Lugstein; Ilya Pobelov; Thomas Wandlowski; Ming Wu; Bernhard Gollas; Guy Denuault;
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1. Atomic Force Microscopy-Scanning Electrochemical Microscopy: Influence of Tip Geometry and Insulation Defects on Diffusion Controlled Currents at Conical Electrodes [J] . Kelly Leonhardt Amra Avdic Alois Lugstein Ilya Pobelov Thomas Wandlowski Ming Wu Bernhard Gollas and Guy Denuault Analytical Chemistry . 2011,第8期

机译：原子力显微镜扫描电化学显微镜：尖端几何形状和绝缘缺陷对锥形电极上扩散控制电流的影响
2. Atomic Force Microscopy-Scanning Electrochemical Microscopy: Influence of Tip Geometry and Insulation Defects on Diffusion Controlled Currents at Conical Electrodes [J] . Kelly Leonhardt, Amra Avdic, Alois Lugstein, Analytical chemistry . 2011,第8期

机译：原子力显微镜扫描电化学显微镜：尖端几何形状和绝缘缺陷对锥形电极上扩散控制电流的影响
3. Atomic Force Microscopy-Scanning Electrochemical Microscopy: Influence of Tip Geometry and Insulation Defects on Diffusion Controlled Currents at Conical Electrodes [J] . Kelly Leonhardt, Amra Avdic, Alois Lugstein, Analytical chemistry . 2011,第8期

机译：原子力显微镜扫描电化学显微镜：尖端几何形状和绝缘缺陷对锥形电极上扩散控制电流的影响
4. Electrochemical atomic force microscopy in supporting the control ofdiffusion process [C] . M. Mindroiu, I. Demetrescu Conference on advanced topics in optolectronics, microelectronics, and nanotechnologies . 2009

机译：电化学原子力显微镜在支持控制过程中的控制
5. Advancing atomic force microscopy-scanning electrochemical microscopy based sensing platforms for biological applications. [D] . Wiedemair, Justyna. 2009

机译：先进的基于原子力显微镜-扫描电化学显微镜的生物应用传感平台。
6. Influence of the adsorption geometry of PTCDA on Ag(111) on the tip–molecule forces in non-contact atomic force microscopy [O] . Gernot Langewisch, Jens Falter, André Schirmeisen, 2014

机译：非接触原子力显微镜中PTCDA对Ag（111）的吸附几何形状对尖端分子力的影响
7. Scanning Electrochemical Microscopy: Theory and Characterization of Electrodes of Finite Conical Geometry [O] . -1

机译：扫描电化学显微镜：有限锥形几何形状的理论与表征
8. Correlation of damage threshold and surface geometry of nodular defects in HR coatings as determined by in-situ atomic force microscopy [R] . Staggs, M C, Kozlowski, M R, Siekhaus, W J, 1992

机译：原位原子力显微镜测定HR涂层中结节缺陷损伤阈值与表面几何的相关性

Atomic Force Microscopy-Scanning Electrochemical Microscopy: Influence of Tip Geometry and Insulation Defects on Diffusion Controlled Currents at Conical Electrodes

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