2021
DOI: 10.1021/acs.jpcc.1c00046
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A First-Principles Study of Impurity-Enhanced Adhesion and Lubricity of Graphene on Iron Oxide Surface

Abstract: Graphene is well-known as one of the best solid lubricants for its superlubricity and high mechanical strength. Weak adhesion leading to low interfacial compatibility is a significant challenge of the use of graphene in harsh conditions. In this work, guided by density functional theory (DFT) calculations, we propose a method to improve graphene compatibility on Fe2O3 by substituting B, P, S, and Si to some carbon sites. The results of binding energy and potential energy surface (PES) show that the selection o… Show more

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Cited by 7 publications
(1 citation statement)
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“…Many of these effects have also been investigated using DFT calculations. Among these are the effects of the supporting substrate (especially in the case of two-dimensional materials) [148][149][150], defects [151][152][153], finite size effects such as the existence of edges [154], properties of the AFM tip [155,156] and the surrounding environment [157] including the effect of moisture. During the lifetime of a realistic system with sliding, the lubricant interacts with the surfaces and within itself.…”
Section: Other Topicsmentioning
confidence: 99%
“…Many of these effects have also been investigated using DFT calculations. Among these are the effects of the supporting substrate (especially in the case of two-dimensional materials) [148][149][150], defects [151][152][153], finite size effects such as the existence of edges [154], properties of the AFM tip [155,156] and the surrounding environment [157] including the effect of moisture. During the lifetime of a realistic system with sliding, the lubricant interacts with the surfaces and within itself.…”
Section: Other Topicsmentioning
confidence: 99%