Potentiometric Biosensor Response Calculation via Molecular Dynamics: Effect of Nanomorphology and Molecular Analyte Binding

机译：通过分子动力学的电位生物传感器响应计算：纳米形态学和分子分析物结合的影响。

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Improved understanding of the electrostatic properties of the oxide-water interface is crucial for rational design in alarge range of technological applications such as fuel cells, water desalination and potentiometric biosensors. For example, it is currently unclear what the effect of nanomorphology such as nanopores and nanotexturing is on the pH response of potentiometric sensors such as ion-sensitive field-effect transistors (IS-FETs). Some experiments have shown increased surface area being correlated with increased pH sensitivity, and others have shown no relationship.

机译：更好地了解氧化物-水界面的静电特性对于合理设计各种技术应用（例如燃料电池，水脱盐和电位生物传感器）至关重要。例如，目前尚不清楚诸如纳米孔和纳米纹理之类的纳米形态对电位传感器（如离子敏感场效应晶体管（IS-FET））的pH响应有什么影响。一些实验表明增加的表面积与增加的pH敏感性相关，而其他实验则没有关系。

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《2018年第65回応用物理学会春季学術講演会講演予稿集》|2018年|11.443|共1页
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Benjamin M. Lowe; C.-K. Skylaris; N. G. Green; Yasushi Shibuta; Toshiya Sakata;
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School of Engineering, University of Tokyo;

University of Southampton, UK;

University of Southampton, UK;

School of Engineering, University of Tokyo;

School of Engineering, University of Tokyo sakata@biofet.t.u-tokyo.ac.jp;

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4. Potentiometric Biosensor Response Calculation via Molecular Dynamics: Effect of Nanomorphology and Molecular Analyte Binding [C] . Benjamin M. Lowe, C.-K. Skylaris, N. G. Green, 応用物理学会春季学術講演会 . 2018

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Potentiometric Biosensor Response Calculation via Molecular Dynamics: Effect of Nanomorphology and Molecular Analyte Binding

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