Preparation and Tribological Performance of Multi-Layer van der Waals Heterostructure WS2/h-BN

Lubricants Pub Date : 2024-05-07 DOI:10.3390/lubricants12050163

Yunqi Fang, Yang Sun, Fengqin Shang, Jing Zhang, Jiayu Yao, Zihan Yan, Hangyan Shen

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Abstract

Van der Waals heterostructures with incommensurate contact interfaces show excellent tribological performance, which provides solutions for the development of new solid lubricants. In this paper, a facile electrostatic layer-by-layer self-assembly (LBL) technique was proposed to prepare multi-layer van der Waals heterostructures tungsten disulfide/hexagonal boron nitride (vdWH WS2/h-BN). The h-BN and WS2 were modified with poly (diallyldimethylammonium chloride) (PDDA) and sodium dodecyl benzene sulfonate (SDBS) to obtain the positively charged PDDA@h-BN and the negatively charged SDBS@WS2, respectively. When the mass ratio of PDDA to h-BN and SDBS to WS2 were both 1:1 and the pH was 3, the zeta potential of PDDA@h-BN and SDBS@WS2 were 60.0 mV and −50.1 mV, respectively. Under the electrostatic interaction, the PDDA@h-BN and SDBS@WS2 attracted each other and stacked alternately along the (002) crystal plane forming the multi-layer (four-layer) vdWH WS2/h-BN. The addition of the multi-layer vdWH WS2/h-BN (1.0 wt%) to the base oil resulted in a significant reduction of 33.8% in the friction coefficient (0.104) and 16.8% in the wear rate (4.43 × 10−5 mm3/(N·m)). The excellent tribological property of the multi-layer vdWH WS2/h-BN arose from the lattice mismatch (26.0%), a 15-fold higher interlayer slip possibility, and the formation of transfer film at the contact interface. This study provided an easily accessible method for the multi-layer vdWH with excellent tribological properties.

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多层范德华异质结构 WS2/h-BN 的制备与摩擦学性能

具有不相称接触界面的范德华异质结构具有优异的摩擦学性能，这为新型固体润滑剂的开发提供了解决方案。本文提出了一种简便的静电逐层自组装（LBL）技术，用于制备多层范德华异质结构二硫化钨/六方氮化硼（vdWH WS2/h-BN）。用聚（二烯丙基二甲基氯化铵）（PDDA）和十二烷基苯磺酸钠（SDBS）对 h-BN 和 WS2 进行改性，分别得到带正电荷的 PDDA@h-BN 和带负电荷的 SDBS@WS2。当 PDDA 与 h-BN 的质量比和 SDBS 与 WS2 的质量比均为 1:1 且 pH 值为 3 时，PDDA@h-BN 和 SDBS@WS2 的 zeta 电位分别为 60.0 mV 和 -50.1 mV。在静电作用下，PDDA@h-BN 和 SDBS@WS2 相互吸引，沿（002）晶面交替堆积，形成多层（四层）vdWH WS2/h-BN。在基础油中添加多层 vdWH WS2/h-BN（1.0 wt%）后，摩擦系数（0.104）显著降低了 33.8%，磨损率（4.43 × 10-5 mm3/（N-m））显著降低了 16.8%。多层 vdWH WS2/h-BN 的优异摩擦学特性源于晶格失配（26.0%）、层间滑移可能性提高 15 倍以及在接触界面形成转移膜。这项研究为具有优异摩擦学特性的多层 vdWH 提供了一种简便易行的方法。

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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Lubricants

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