Tribological performance of a tungsten disulfide lubricant film prepared by atomic layer deposition using tungsten hexacarbonyl and hydrogen sulfide as precursors

Tribological performance of a tungsten disulfide lubricant film prepared by atomic layer deposition using tungsten hexacarbonyl and hydrogen sulfide as precursors

The tribological properties of a tungsten disulfide solid lubricant film prepared by atomic layer deposition were investigated. The WS2 film was deposited using tungsten hexacarbonyl and hydrogen sulfide as precursors. The results showed that due to the incomplete reaction of tungsten hexacarbonyl,...

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Veröffentlicht in:Tribology international 2017-10, Vol.114, p.478-484
Hauptverfasser: Sun, Yongfeng, Chai, Zhimin, Lu, Xinchun, Lu, Jing
Format: Artikel
Sprache:eng
Schlagworte:
Atomic layer deposition
Atomic layer epitaxy
Friction
Hydrogen sulfide
Low friction
Lubrication
Planes
Precursors
Reorientation
Silicon nitride
Solid lubricants
Tribology
Tungsten disulfide
Wear resistance
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container_title Tribology international
container_volume 114
creator Sun, Yongfeng
Chai, Zhimin
Lu, Xinchun
Lu, Jing
description The tribological properties of a tungsten disulfide solid lubricant film prepared by atomic layer deposition were investigated. The WS2 film was deposited using tungsten hexacarbonyl and hydrogen sulfide as precursors. The results showed that due to the incomplete reaction of tungsten hexacarbonyl, steady atomic concentrations of carbon and oxygen were detected throughout the WS2 film. The friction tests showed that in humid air the WS2 film exhibited good environmental robustness, and in dry nitrogen it exhibited a low friction coefficient, which decreased to 0.035 at a steady lubrication state. The formation of a transfer film on the counterface of a Si3N4 ball, and the reorientation with a few top (002) basal planes in the wear track were revealed. •The WS2 film prepared by ALD using tungsten hexacarbonyl and hydrogen sulfide as precursors has a low friction coefficient with a steady lubrication state in the dry nitrogen.•The formation of transfer film and the reorientation with a few top (002) basal planes parallel to sliding direction in the wear track are revealed.•This study provides a potential ALD-WS2 recipe to reduce the friction of MEMS devices with contacting structures.
doi_str_mv 10.1016/j.triboint.2017.04.047
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source ScienceDirect Journals (5 years ago - present)
subjects Atomic layer deposition
Atomic layer epitaxy
Friction
Hydrogen sulfide
Low friction
Lubrication
Planes
Precursors
Reorientation
Silicon nitride
Solid lubricants
Tribology
Tungsten disulfide
Wear resistance
title Tribological performance of a tungsten disulfide lubricant film prepared by atomic layer deposition using tungsten hexacarbonyl and hydrogen sulfide as precursors
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