Macroscale Superlubricity of Hydrated Anions in the Boundary Lubrication Regime

Han, Tianyi; Zhao, Mingbo; Sun, Chuan; Zhao, Ruiqi; Xu, Wanxing; Zhang, Shumin; Singh, Sudesh; Luo, Jianbin; Zhang, Chenhui

doi:10.1021/acsami.3c09277

Cited by 7 publications

(5 citation statements)

References 62 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…In contrast, when HOPG was positively charged, more Cl – ions were adsorbed on HOPG, while excessive La 3+ ions adsorbed on SiO 2 microspheres; this led to the disappearance of ion–ion attractive interactions that originated from high valence ions, and thus a more repulsive interaction (Figure g) and lower COF (Figure f). Besides, although the hydration ability of Cl – is weaker than that of metal cations (low hydration energy of ∼340 kJ/mol and low hydration number of 1.0–2.0), our previous study found that the adsorption of Cl – anions on the positively charged surface could also reduce the COF and obtained superlubricity . Moreover, the primary adsorption of anions, resulting in a flat and low energy barrier surface, may contribute to the reduction of the COF.…”

Section: Analysis Of Electric Properties Near Wall and Adsorption Cha...mentioning

confidence: 93%

“…Besides, although the hydration ability of Cl − is weaker than that of metal cations (low hydration energy of ∼340 kJ/mol and low hydration number of 1.0−2.0), our previous study found that the adsorption of Cl − anions on the positively charged surface could also reduce the COF and obtained superlubricity. 41 Moreover, the primary adsorption of anions, resulting in a flat and low energy barrier surface, may contribute to the reduction of the COF. Interestingly, we found that trivalent ionic solutions (CrCl 3 , AlCl 3 ) showed a similar trend of tribology and electrostatic potential as La 3+ (see Figures S13 and S14).…”

Section: ■ Analysis Of Electric Properties Near Wall and Adsorption C...mentioning

confidence: 99%

See 1 more Smart Citation

Disparate External Electric Field Effect on the Adsorption and Shear Behavior of Monovalent and Trivalent Ions in Electrolyte Solution

Zhao,

Han,

Zhang

et al. 2024

Nano Lett.

Self Cite

View full text Add to dashboard Cite

Reducing friction is of great interest, and an external potential applied to the friction pair can regulate lubricity. Electrochemical atomic force microscopy (EC-AFM) is used to study the tribological and adsorption behavior of monovalent and trivalent ionic solutions between charged surfaces. An opposite trend of coefficient of friction (COF) and normal force that varies with the applied electric potential is witnessed. Direct force measurements and theoretical models have disclosed that, for the NaCl solution, the negative electric field reduces the COF by increasing cation adsorption. As for LaCl 3 solution, the positive electric field promotes the primary adsorption of anions on HOPG, resulting in the disappearance of the attractive ion−ion correlation between the trivalent ions, thereby reducing the COF. The shear behavior of adsorbed ions in electrolyte solution is sensitive to their valence, because of their different surface force contribution. The study further provides a framework to optimize the design of hydration lubrication.

show abstract

Section: Analysis Of Electric Properties Near Wall and Adsorption Cha...mentioning

confidence: 93%

Section: ■ Analysis Of Electric Properties Near Wall and Adsorption C...mentioning

confidence: 99%

Disparate External Electric Field Effect on the Adsorption and Shear Behavior of Monovalent and Trivalent Ions in Electrolyte Solution

Zhao,

Han,

Zhang

et al. 2024

Nano Lett.

Self Cite

View full text Add to dashboard Cite

show abstract

“…The ions in water-based lubricants can form an adsorption layer through the electrostatic interaction, which can bear a large applied load and reduce friction at the interface. Ionic aqueous lubricants even provide favorable conditions for the realization of superlubricity under all lubrication regimes, including boundary lubrication (BL) [69,82,[110][111][112][113][114], mixed lubrication (ML) [14,45,55,107,115,116], and elastohydrodynamic lubrication (EHL) [46,[117][118][119][120]. In a BL regime, the repulsive force (like hydration repulsion) generated by the adsorption of ions on the friction surfaces is conducive to bearing the applied load and reducing the friction.…”

Section: Aqueous Ionic Lubricantsmentioning

confidence: 99%

Electric Potential Controlled Ionic Lubrication

Wang,

Guo,

Singh

et al. 2024

Lubricants

Self Cite

View full text Add to dashboard Cite

Electric potential controlled lubrication, also known as triboelectrochemistry or electrotunable tribology, is an emerging field to regulate the friction, wear, and lubrication performance under charge distribution on the solid–liquid interfaces through an applied electric potential, allowing to achieve superlubrication. Electric potential controlled lubrication is of great significance for smart tunable lubrication, micro-electro-mechanical systems (MEMS), and key components in high-end mechanical equipment such as gears and bearings, etc. However, there needs to be a more theoretical understanding of the electric potential controlled lubrication between micro- and macro-scale conditions. For example, the synergistic contribution of the adsorption/desorption process and the electrochemical reaction process has not been well understood, and there exists a significant gap between the theoretical research and applications of electric potential controlled lubrication. Here, we provide an overview of this emerging field, from introducing its theoretical background to the advantages and characteristics of different experimental configurations (including universal mechanical tribometers, atomic force microscopes, and surface force apparatus/balances) for electric potential controlled lubrication. Next, we review the main experimental achievements in the performance and mechanisms of electrotunable lubrication, especially using ionic lubricants, including electrolyte solutions, ionic liquids, and surfactants. This review aims to survey the literature on electric potential controlled lubrication and provide insights into the design of superlubricants and intelligent lubrication systems for various applications.

show abstract

“…In aqueous solutions, these molecules tightly associate with charged or amphoteric ions, forming hydrated layers [65,71]. Research has demonstrated the effective load-bearing and lubricating properties of metal cation hydration layers [72][73][74]. By modulating the adsorption and desorption of hydrated ions on electrode surfaces, significant alterations in the tribological characteristics between the electrode and contact substrate can be achieved.…”

Section: Adsorption Of Surface Hydrated Ionsmentioning

confidence: 99%

A Review of Electric Potential-Controlled Boundary Lubrication

Li,

Liu,

et al. 2023

Lubricants

View full text Add to dashboard Cite

Tribotronics represents the modulation of friction via an external electric potential, a field with promising ramifications for intelligent devices, precision manufacturing, and biomedical applications. A profound elucidation of mechanisms that allow for potential-controlled friction is foundational to further research in this tribotronic domain. This article provides a comprehensive review of the research progress in electro-controlled friction over the past few decades, approached from the perspective of the boundary lubrication film at the friction interface, a direct influencer of electro-controlled friction performance. The mechanisms of potential-controlled friction are categorized into three distinct classifications, contingent on the formation mode of the boundary lubrication film: potential-induced interfacial redox reactions, interfacial physical adsorption, and interfacial phase structure transformations. Furthermore, an outlook on the application prospects of electro-controlled friction is provided. Finally, several research directions worth exploring in the field of electro-controlled friction are proposed. The authors hope that this article will further promote the application of electro-controlled friction technology in engineering and provide intellectual inspiration for related researchers.

show abstract

Macroscale Superlubricity of Hydrated Anions in the Boundary Lubrication Regime

Cited by 7 publications

References 62 publications

Disparate External Electric Field Effect on the Adsorption and Shear Behavior of Monovalent and Trivalent Ions in Electrolyte Solution

Disparate External Electric Field Effect on the Adsorption and Shear Behavior of Monovalent and Trivalent Ions in Electrolyte Solution

Electric Potential Controlled Ionic Lubrication

A Review of Electric Potential-Controlled Boundary Lubrication

Contact Info

Product

Resources

About