Nonmonotonic Enhancement of Friction Regulation via Strain-Induced Moiré Patterns on MoS2 Substrate Surface

IF 8.3 2区材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY

ACS Applied Materials & Interfaces Pub Date : 2025-03-30 DOI:10.1021/acsami.5c01833

Yun Dong, Chunjie Zhang, Rong Deng, Yi Tao, Yuxin Zhang

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Abstract

Traditionally, strain-induced moiré patterns at the friction interface can produce superlubrication. Here, we construct moiré patterns on the surface of a two-layer MoS₂ substrate through applying biaxial strain to the bottom layer of the substrate and investigate the effect of moiré patterns on friction energy dissipation. Results indicate friction enhances nonmonotonically with an increase of strain. Notably, two types of frictional dissipation channels have been discovered, corresponding to washboard and moiré-washboard frequencies. Based on this discovery, we determine that the nonmonotonic increase in friction is the result of coupling enhancement of the two dissipative channels and nonmonotonic change in moiré surface roughness. Moreover, friction gradually evolves into a monotonic increase with strain as the adhesion factor between substrate layers enhances. This is because strong interlayer interaction leads to an extremely low moiré barrier, which in turn makes moiré-surface roughness vary minimally, and thus the coupling of two dissipative channels plays a dominant role in friction. Our observations provide strategies for actively controlling friction in 2D material systems.

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传统上，摩擦界面上由应变引起的摩尔纹可以产生超润滑。在此，我们通过对双层 MoS2 基底的底层施加双轴应变，在其表面构建摩尔纹，并研究摩尔纹对摩擦能量耗散的影响。结果表明，摩擦力随着应变的增加而非单调增强。值得注意的是，我们发现了两种类型的摩擦耗散通道，分别对应于洗衣板频率和摩尔纹-洗衣板频率。基于这一发现，我们确定摩擦力的非单调增加是两种耗散通道耦合增强和摩尔纹表面粗糙度非单调变化的结果。此外，随着衬底层间粘附因子的增强，摩擦力会逐渐演变为随应变的单调增加。这是因为强烈的层间相互作用会导致极低的摩尔纹屏障，进而使摩尔纹表面粗糙度变化极小，因此两个耗散通道的耦合在摩擦中起着主导作用。我们的观察结果为主动控制二维材料系统中的摩擦提供了策略。

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来源期刊

ACS Applied Materials & Interfaces 工程技术-材料科学：综合

CiteScore

16.00

自引率

6.30%

发文量

4978

审稿时长

1.8 months

期刊介绍： ACS Applied Materials & Interfaces is a leading interdisciplinary journal that brings together chemists, engineers, physicists, and biologists to explore the development and utilization of newly-discovered materials and interfacial processes for specific applications. Our journal has experienced remarkable growth since its establishment in 2009, both in terms of the number of articles published and the impact of the research showcased. We are proud to foster a truly global community, with the majority of published articles originating from outside the United States, reflecting the rapid growth of applied research worldwide.