MODELING OF CONFORMATIONAL CHANGES OF POLYELECTROLYTES ON THE SURFACE OF A TRANSVERSELY POLARIZED METAL NANOWIRE IN AN EXTERNAL ELECTRIC FIELD

Q3 Engineering

Eurasian Physical Technical Journal Pub Date : 2022-06-15 DOI:10.31489/2022no2/19-29

M. Kucherenko

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Abstract

Gold nanowires with polyelectrolytes adsorbed on their surface are widely used in various biomedical research. In this work, for the first time, conformationalchanges in polyelectrolytes on the surface of a gold nanowire transversely polarized in an external electric field were considered. The properties of a specially created analytical model of conformational rearrangements of a Gaussian macromolecular chain adsorbed on the surface of a cylindrical metal nanowire in an external electric field transverse to the axis of the nanowire were investigated. Conformational changes of uniformly charged polypeptides on the surface of a transversely polarized gold nanowire have been studied using molecular dynamics simulation. On the basis of the analytical model and the results of molecular dynamics simulation, the spatial distributions of the density of polyelectrolyte units on the surface of the nanowire were constructed. With an increase in the strength of the external electric field, an asymmetric stretching of the polyelectrolyte fringe in the direction of the dipole moment of the transversely polarized nanowire was observed.

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外电场下横向极化金属纳米线表面聚电解质构象变化的模拟

表面吸附有聚电解质的金纳米线广泛应用于各种生物医学研究。在这项工作中，首次考虑了在外电场中横向极化的金纳米线表面聚电解质的构象变化。研究了吸附在圆柱形金属纳米线表面的高斯大分子链在与纳米线轴线横向的外电场下的构象重排特性。采用分子动力学模拟方法研究了均匀带电多肽在横向极化金纳米线表面的构象变化。在分析模型和分子动力学模拟结果的基础上，构建了纳米线表面聚电解质单元密度的空间分布。随着外加电场强度的增加，在横向极化纳米线偶极矩方向上观察到聚电解质条纹的不对称拉伸。

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来源期刊

Eurasian Physical Technical Journal Energy-Energy (all)

CiteScore

1.10

自引率

0.00%

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