Tribochemical synthesis of nano-lubricant films from adsorbed molecules at sliding solid interface: Tribo-polymers from α-pinene, pinane, and n-decane

He, Xin; Barthel, Anthony J.; Kim, Seong H.

doi:10.1016/j.susc.2016.01.005

Cited by 34 publications

(64 citation statements)

References 57 publications

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“…Chemical reactions can occur not only by thermal, photochemical, and electrochemical activations but also by mechanical activations; mechanically driven reactions are the subject of mechanochemistry. − In particular, chemical reactions induced by interfacial shear or friction at tribological systems are called tribochemistry. − Well-known industrial examples of tribochemical reactions are the production of antiwear films by zinc dialkyldithiophosphate (often referred to as ZDDP) and the formation of a friction-modifier layer by molybdenum dithiocarbamate (MoDTC); both are widely used additives in automobile engine oils. − The formation of such surface films (often called tribofilms) is highly dependent on interfacial shear actions. − Without shear, tribofilms do not form efficiently. Even if a surface film is formed by the same chemicals through thermal reactions, the composition and structure of the film formed without shear are different from those of tribofilms, and its performance is inferior to that of tribofilms. − To improve the performance of such tribofilms or design better additives that can outperform the currently used additive chemicals, it is critical to understand the mechanisms of tribochemical reactions at the molecular level. However, the current mechanistic understanding of tribochemical reactions occurring in practical applications is quite rudimentary because of the complexity of individual steps involved in such reactions and/or the difficulty of detailed characterizations of tribochemical reaction products at the molecular level.…”

Section: Introductionmentioning

confidence: 99%

Mechanochemical Reactions of Adsorbates at Tribological Interfaces: Tribopolymerizations of Allyl Alcohol Coadsorbed with Water on Silicon Oxide

Ngo

Kim

2019

Langmuir

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Mechanochemical reactions of adsorbed molecules at tribological interfaces can benefit or impede lubrication, depending on the type of reactions induced by the interfacial shear or friction. Shear-induced polymerization of oxidatively chemisorbed organic species can occur at tribological interfaces, and their products can mitigate the wear of the surface in the case of the intermittent cessation of the lubricant supply. In contrast, tribochemical reactions involving water molecules impinging from the ambient air could facilitate surface wear. In this study, we investigated how such processes are affected when a silicon oxide surface is exposed to the environment containing both water and polymerizable organic molecules. For the polymerizable organic moiety, allyl alcohol was chosen because it is known to have a good tribopolymerization activity and can compete with water for surface adsorption sites. The adsorbate composition can be divided into two regimes: water-rich and alcohol-rich. The tribopolymerization yield was found to be significantly enhanced, compared to the alcohol-only case, in both water-rich and alcohol-rich regimes. The coadsorbed water molecules appeared to be incorporated into the tribopolymerization product of allyl alcohol. The friction coefficient qualitatively correlated with the tribopolymerization yield. Surprisingly, a small degree of surface wear was observed in the alcohol-rich regime, although wear was completely suppressed in the water-rich regime and the alcohol-only condition. These results suggested that the wear prevention effect does not necessarily correlate with the tribopolymerization effects.

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Section: Introductionmentioning

confidence: 99%

Mechanochemical Reactions of Adsorbates at Tribological Interfaces: Tribopolymerizations of Allyl Alcohol Coadsorbed with Water on Silicon Oxide

Ngo

Kim

2019

Langmuir

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“…Figure 4d, e gives the force curves as a function of tip–surface distance during the indentation loading and unloading cycle; the slopes of the load and unload curves are attributed to the stiffness of the material being probed with the AFM tip. The measured largest negative force is the adhesion force between the probed surface and tip 33 . In Fig.…”

Section: Resultsmentioning

confidence: 99%

Lithium anode stable in air for low-cost fabrication of a dendrite-free lithium battery

et al. 2019

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Lithium metal, the ideal anode material for rechargeable batteries, suffers from the inherent limitations of sensitivity to the humid atmosphere and dendrite growth. Herein, low-cost fabrication of a metallic-lithium anode that is stable in air and plated dendrite-free from an organic-liquid electrolyte solves four key problems that have plagued the development of large-scale Li-ion batteries for storage of electric power. Replacing the low-capacity carbon anode with a safe, dendrite-free lithium anode provides a fast charge while reducing the cost of fabrication of a lithium battery, and increasing the cycle life of a rechargeable cell by eliminating the liquid-electrolyte ethylene-carbonate additive used to form a solid-electrolyte interphase passivation layer on the anode that is unstable during cycling. This solution is accomplished by formation of a hydrophobic solid-electrolyte interphase on a metallic-lithium anode that allows for handling of the treated lithium anode membrane in a standard dry room during cell fabrication.

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“…This can be explained by the fact that the GO sheets are easier to aggregate at high concentration (Yang et al, 2015;Giuri et al, 2017), which restricts the uniform adsorption of GO sheets on the frictional interfaces. On the other hand, lower GO sheets concentration is hard to form a complete adsorbed film on the sliding surfaces (He et al, 2016), which is also adverse to the lubrication.…”

Section: Characterization Of Graphene Oxidementioning

confidence: 99%

Tribological behaviour of graphene oxide sheets as lubricating additives in bio-oil

Yao

et al. 2018

ILT

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Purpose This paper aims to study the upgradation of the lubricating performance of the renewable base oil , and to study the tribological behavior of graphene oxide (GO) sheets used as lubricating additives in bio-oil for iron/steel contact. Design/methodology/approach A multifunctional end-face tribometer was used to characterize the friction coefficient and wear loss of the tribosystem under different lubricants. Findings The experimental results show that GO sheets with small size benefit lubricating effects and the optimal concentration of GO sheets in bio-oil is 0.4-0.6 per cent, which can form a complete lubricating film on the frictional interfaces and obtain a low friction coefficient and wear loss. Higher concentration of GO sheets can result in a significant aggregation of the sheets, reducing the content of the lubricating components in the bio-oil, which results in the increase in friction and wear; at this stage, the main wear pattern was ascribed to adhesive wear. Practical implications These results show a promising prospect of improving the tribological performance of renewable base oil with the introduction of GO sheets as additives. Originality/value No literature has covered the tribological behaviour of GO sheets in bio-oil. This study contributes to accelerating the application of bio-oil.

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Tribochemical synthesis of nano-lubricant films from adsorbed molecules at sliding solid interface: Tribo-polymers from α-pinene, pinane, and n-decane

Cited by 34 publications

References 57 publications

Mechanochemical Reactions of Adsorbates at Tribological Interfaces: Tribopolymerizations of Allyl Alcohol Coadsorbed with Water on Silicon Oxide

Mechanochemical Reactions of Adsorbates at Tribological Interfaces: Tribopolymerizations of Allyl Alcohol Coadsorbed with Water on Silicon Oxide

Lithium anode stable in air for low-cost fabrication of a dendrite-free lithium battery

Tribological behaviour of graphene oxide sheets as lubricating additives in bio-oil

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