A model for zwitterionic polymers and their capacitance applications

The Journal of Chemical Physics Pub Date : 2024-09-10 DOI:10.1063/5.0226496

Dorian Bruch, Zhen-Gang Wang

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Abstract

Zwitterions have been shown experimentally to enhance the dielectric constant of ionic media, owing to their large molecular dipole. Many studies since explored the enhancement of ionic conductivity with zwitterion additives as well as bulk behavior of zwitterions. Here, we examine the capacitance behavior of zwitterions between charged parallel plates using a mean-field theory. Employing only chain connectivity of a cation and anion with neutral monomers in between with mean-field electrostatics, we show that our model captures the high-dielectric behavior of zwitterions. We also predict an optimum in the capacitance of zwitterionic media as a function of chain length. To address the issue of zwitterion screening near charged surfaces, we demonstrate that zwitterions simultaneously partially screen charged walls and act as a pure dielectric that propagates the electric field far from the surface. Moreover, we show that salt solutions with zwitterionic additives outperform the energy density of both salt-only and zwitterion-only capacitors. We find that salt-only capacitors perform better at low applied potential, whereas salt capacitors with zwitterionic additives perform better at high applied potential.

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齐聚物模型及其电容应用

实验证明，由于具有较大的分子偶极，齐聚物可以增强离子介质的介电常数。此后，许多研究都探讨了使用添加剂增强离子导电性的问题以及齐聚物的体态行为。在这里，我们使用均场理论研究了带电平行板之间的齐聚物电容行为。我们仅采用阳离子和阴离子与中性单体之间的链连接，并采用均场静电法，结果表明我们的模型捕捉到了齐聚物的高介电行为。我们还预测了齐聚物介质电容的最佳值与链长的函数关系。为了解决带电表面附近的滋养剂屏蔽问题，我们证明了滋养剂可以同时屏蔽部分带电壁，并作为纯介电体将电场传播到远离表面的地方。此外，我们还证明了含有滋养剂添加剂的盐溶液在能量密度方面优于纯盐电容器和纯滋养剂电容器。我们发现，纯盐电容器在低外加电位时性能更佳，而含有齐聚物添加剂的盐电容器在高外加电位时性能更佳。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The Journal of Chemical Physics

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