Long-term aging of multiwall nanotubes and fullerene-like nanoparticles of WS2

IF 3.2 3区化学 Q2 CHEMISTRY, INORGANIC & NUCLEAR

Journal of Solid State Chemistry Pub Date : 2025-02-15 DOI:10.1016/j.jssc.2025.125259

R. Rosentsveig , Y. Feldman , V. Kundrat , I. Pinkas , A. Zak , R. Tenne

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Abstract

Tungsten disulfide is an important compound with layered structure (2D-material). Chemically it is less stable than tungsten trioxide and hence undergoes oxidation upon exposure to the ambient atmosphere. Although nanoparticles of tungsten disulfide are metastable, hollow-closed nanostructures, i.e. fullerene-like WS₂ (IF-WS₂) and nanotubes thereof are kinetically stabilized because they present their basal (001) surface to the outer world. In this work, the oxidation of IF-WS₂ and nanotubes stored under different conditions for 17–26 years have been studied. It was found that the degree of oxidation depends on the storage conditions. In fact, nanoparticles which were stored for long time and protected from the ambient atmosphere oxidized only marginally, while others kept under less favorable conditions suffered severe oxidation. Furthermore, the degradation of the IF nanoparticles is autocatalytic with clear acceleration over time. This work has also practical significance, since the shelf-life of IF-WS₂ nanoparticles, which are used as solid-state lubricants commercially have not been studied before.

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WS2多壁纳米管和类富勒烯纳米颗粒的长期老化

二硫化钨是一种重要的层状结构化合物（二维材料）。在化学上，它比三氧化钨更不稳定，因此暴露在环境大气中会发生氧化。虽然二硫化钨纳米颗粒是亚稳的，但空心封闭的纳米结构，即类富勒烯WS2 （IF-WS2）及其纳米管是动力学稳定的，因为它们的基面（001）面向外部世界。本文研究了在不同条件下储存17-26年的IF-WS2和纳米管的氧化反应。结果表明，氧化程度与贮存条件有关。事实上，长期储存并远离环境气氛的纳米颗粒只会轻微氧化，而在较不利条件下保存的纳米颗粒则会严重氧化。此外，中频纳米颗粒的降解是自催化的，随着时间的推移具有明显的加速。这项工作也具有实际意义，因为以前没有研究过用作固态润滑剂的IF-WS2纳米颗粒的保质期。

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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来源期刊

Journal of Solid State Chemistry 化学-无机化学与核化学

CiteScore

6.00

自引率

9.10%

发文量

848

审稿时长

25 days

期刊介绍： Covering major developments in the field of solid state chemistry and related areas such as ceramics and amorphous materials, the Journal of Solid State Chemistry features studies of chemical, structural, thermodynamic, electronic, magnetic, and optical properties and processes in solids.