Prof Dr. Xiangyuan Ye | Tribology | Best Researcher Award

PHD at Northwest Normal University, China

Professional Profiles

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• Orcid
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Education

B.S. in Chemistry (2007.9 – 2011.7) School of Chemistry & Chemical Engineering, Northwest Normal University, Lanzhou, China Ph.D. in Physical Chemistry (2011.7 – 2016.7) Advisor: Jinqing Wang State Key Laboratory of Solid Lubrication, Lanzhou Institute of Chemical Physics, Chinese Academy of Sciences, Lanzhou, China Tribology

Awards

“Zhu Li Yuehua” outstanding doctoral scholarship of the Chinese Academy of Sciences, China. National Encouragement Scholarship, Gansu Province, China. Excellent Student Award, Northwest Normal University, Gansu Province, China. Excellent Student Cadre, Northwest Normal University, Gansu Province, China.

Research Interests

I am interested in polymers and nanomaterials, including the preparation of spherical nanomaterials and mesoporous materials, self-assembly of nanomaterials, and nanomaterial-enhanced polymers. During my Ph.D. studies under the guidance of Prof. Jinqing Wang at the Lanzhou Institute of Chemical Physics, Chinese Academy of Sciences, I gained expertise in conventional techniques for material preparation and performance testing, with a particular focus on the surface lubrication properties of materials. Tribology

Research Focus

Xiangyuan Ye’s research focuses on the field of tribology, specifically exploring the tribological properties of various materials and nanocomposites. His work includes studying the lubrication properties of graphene quantum dots, molybdenum disulfide films, and other hybrid materials. Ye’s research also examines the effects of morphology on lubricant additives, the preparation of superhydrophobic sponges, and the enhancement of polymers with fluorinated graphene. His contributions to tribology are evident in his numerous publications on the thermal, mechanical, and wear behaviors of advanced materials, aiming to improve lubrication and reduce wear in industrial applications. Tribology

Publications

1. Comparative study on corrosion resistance and lubrication function of lithium complex grease and polyurea grease, Cited by: 23,  Publication date: 2021.
2. High performance lubricants prepared from Naphthalene-1,4,5,8-Tetracarboxylic acid: Synthesis, physicochemical and Tribological properties, Cited by: 1,  Publication date: 2021.
3. Tribological Properties of SiO2@Cu and SiO2@MoS2 Core–Shell Microspheres as Lubricant Additives, Cited by: 23,  Publication date: 2021.
4. Self-dispersing complex lithium-based thickener fiber for high-performance anti-corrosion/wear epoxy coating filler, Cited by: 22,  Publication date: 2021.
5. Impacts of polyimide enhanced by amino-modified fluorinated graphene: Thermal, mechanical and tribological behaviors, Publication date: 2022.
6. Heterostructured rGO/MoS2 nanocomposites toward enhancing lubrication function of industrial gear oils, Cited by: 51,  Publication date: 2022.
7. Impacts of polyimide enhanced by amino-modified fluorinated graphene: Thermal, mechanical and tribological behaviors, Publication date: 2022.
8. The simple preparation of superhydrophobic sponge with fluorinated graphene and carbon nanotube, Publication date: 2021.
9. Effect of morphology on tribological properties of Fe3O4 as lubricant additive: Nanospheres, nanowires and nanosheets, Cited by: 3,  Publication date: 2024.
10. Tribological properties of graphene quantum dot hybrid polyethylene glycol lubricated molybdenum disulfide films, Cited by: 3,  Publication date: 2024.

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