聚合物表面液滴脱钉导致的能量耗散引起的不可逆充电。

Irreversible Charging Caused by Energy Dissipation from Depinning of Droplets on Polymer Surfaces.

作者信息

Chen Shuaijia, Leon Ronald T, Qambari Rahmat, Yan Yan, Chen Menghan, Sherrell Peter C, Ellis Amanda V, Berry Joseph D

机构信息

University of Melbourne, School of Chemical and Biomedical Engineering, Parkville, Victoria 3010, Australia.

RMIT University, School of Science, Melbourne, Victoria 3000, Australia.

出版信息

Phys Rev Lett. 2025 Mar 14;134(10):104002. doi: 10.1103/PhysRevLett.134.104002.

DOI:10.1103/PhysRevLett.134.104002

PMID:40153640

Abstract

Interfacial energy dissipation during stick-slip motion of a liquid drop on a nonconductive polymer substrate is shown to lead to an irreversible increase in electrical charge. This previously unobserved phenomenon occurs during surface wetting, in contrast to the previously reported charge separation mechanism that occurs during dewetting. Understanding this electrification mechanism will facilitate the design of energy harvesters and aid the development of risk mitigation strategies for electrostatic buildup in liquid flow across a wide range of industrial applications.

摘要

研究表明，液滴在非导电聚合物基底上发生粘滑运动时的界面能量耗散会导致电荷不可逆增加。与之前报道的在去湿过程中发生的电荷分离机制不同，这种此前未观察到的现象发生在表面润湿过程中。了解这种起电机制将有助于能量收集器的设计，并有助于制定减轻广泛工业应用中液体流动过程中静电积聚风险的策略。

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聚合物表面液滴脱钉导致的能量耗散引起的不可逆充电。

Irreversible Charging Caused by Energy Dissipation from Depinning of Droplets on Polymer Surfaces.

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