Holmberg K, Erdemir A. Influence of tribology on global energy consumption, costs and emissions. Friction 5(3): 263–284 (2017)

Article  Google Scholar 

Myshkin N, Kovalev A. Adhesion and surface forces in polymer tribology—A review. Friction 6(2): 143–155 (2018)

Article  Google Scholar 

Liu L, Zhou M, Jin L, Li L, Mo Y, Su G, Li X, Zhu H, Tian Y. Recent advances in friction and lubrication of graphene and other 2D materials: Mechanisms and applications. Friction 7(3): 199–216 (2019)

Article  Google Scholar 

Imani A, Zhang H, Owais M, Zhao J, Chu P, Yang J, Zhang Z. Wear and friction of epoxy based nanocomposites with silica nanoparticles and wax-containing microcapsules. Composites Part A: Appl Sci Manuf 107: 607–615 (2018)

Article  Google Scholar 

Yuan J, Zhang Z, Yang M, Wu L, Li P, Guo F, Men X, Liu W. Coupling hybrid of BN nanosheets and carbon nanotubes to enhance the mechanical and tribological properties of fabric composites. Composites Part A: Appl Sci Manuf 123: 132–140 (2019)

Article  Google Scholar 

Guo L, Li G, Guo Y, Zhao F, Zhang L, Wang C, Zhang G. Extraordinarily low friction and wear of epoxy-metal sliding pairs lubricated with ultra-low sulfur diesel. ACS Sustainable Chem Eng 6: 15781–15790 (2018)

Article  Google Scholar 

Samyn P, Schoukens G, De Baets P. Micro- to nanoscale surface morphology and friction response of tribological polyimide surfaces. Appl Surf Sci 256: 3394–3408 (2010)

Article  Google Scholar 

Samyn P, Quintelier J, Schoukens G, De Baets P. The sliding behaviour of sintered and thermoplastic polyimides investigated by thermal and Raman spectroscopic measurements. Wear 264: 869–876 (2008)

Article  Google Scholar 

Tanaka A, Umeda K, Takatsu S. Friction and wear of diamond-containing polyimide composites in water and air. Wear 257: 1096–1102 (2004)

Article  Google Scholar 

Zeng X, Peng Y, Yu M, Lang H, Cao X, Zou K. Dynamic sliding enhancement on the friction and adhesion of graphene, graphene oxide, and fluorinated graphene. ACS Appl Mater Interfaces 10: 8214–8224 (2018)

Article  Google Scholar 

Xu D, Wang C, Espejo C, Wang J, Neville A, Morina A. Understanding the friction reduction mechanism based on molybdenum disulfide tribofilm formation and removal. Langmuir 34: 13523–13533 (2018)

Article  Google Scholar 

Tocci G, Joly L, Michaelides A. Friction of water on graphene and hexagonal boron nitride from ab initio methods: Very different slippage despite very similar interface structures. Nano Lett 14: 6872–6877 (2014)

Article  Google Scholar 

Lian W, Mai Y, Liu C, Zhang L, Li S, Jie X. Two-dimensional Ti3C2 coating as an emerging protective solid-lubricant for tribology. Ceram Int 44: 20154–20162 (2018)

Article  Google Scholar 

Liu Y, Shin D G, Xu S, Kim C L, Kim D E. Understanding of the lubrication mechanism of reduced graphene oxide coating via dual in-situ monitoring of the chemical and topographic structural evolution. Carbon 173: 941–952 (2021)

Article  Google Scholar 

Kim H J, Kim D E. Water lubrication of stainless steel using reduced graphene oxide coating. Sci Rep 5: 17034 (2015)

Article  Google Scholar 

Larsson E, Westbroek R, Leckner J, Jacobson S, Rudolphi Å K. Grease-lubricated tribological contacts-Influence of graphite, graphene oxide and reduced graphene oxide as lubricating additives in lithium complex (LiX)-and polypropylene (PP)-thickened greases. Wear 486: 204107–204120 (2021)

Article  Google Scholar 

Hong M, Chen E Y X. Future directions for sustainable polymers. Trends in Chem 1: 148–151 (2019)

Article  Google Scholar 

Yi C, Li W, Shi S, He K, Ma P, Chen M, Yang C. High-temperature-resistant and colorless polyimide: Preparations, properties, and applications. Solar Energy 195: 340–354 (2020)

Article  Google Scholar 

Ji D, Li T, Hu W, Fuchs H. Recent progress in aromatic polyimide dielectrics for organic electronic devices and circuits. Adv Mater 31: 1806070–1806088 (2019)

Article  Google Scholar 

Christensen P R, Scheuermann A M, Loeffler K E, Helms B A. Closed-loop recycling of plastics enabled by dynamic covalent diketoenamine bonds. Nat Chem 11: 442–448 (2019)

Article  Google Scholar 

Jin Y, Lei Z, Taynton P, Huang S, Zhang W. Malleable and recyclable thermosets: The next generation of plastics. Matter 1: 1456–1493 (2019)

Article  Google Scholar 

Zheng N, Xu Y, Zhao Q, Xie T. Dynamic covalent polymer networks: A molecular platform for designing functions beyond chemical recycling and self-healing. Chem Rev 121: 1716–1745 (2021)

Article  Google Scholar 

Zhang Q, Shi C Y, Qu D H, Long Y T, Feringa B L, Tian H. Exploring a naturally tailored small molecule for stretchable, self-healing, and adhesive supramolecular polymers. Sci Adv 4: 8192–8200 (2018)

Article  Google Scholar 

Yao W, Tian Q, Shi J, Luo C, Wu W. Printable, down/upconversion triple-mode fluorescence responsive and colorless self-healing elastomers with superior toughness. Adv Funct Mater 31: 2100211–2100221 (2021)

Article  Google Scholar 

Gao S, Cheng Z, Zhou X, Liu Y, Wang J, Wang C, Chu F, Xu F, Zhang D. Fabrication of lignin based renewable dynamic networks and its applications as self-healing, antifungal and conductive adhesives. Chem Eng J 394: 124896–124905 (2020)

Article  Google Scholar 

Geng H, Wang Y, Yu Q, Gu S, Zhou Y, Xu W, Zhang X, Ye D. Vanillin-based polyschiff vitrimers: Reprocessability and chemical recyclability. ACS Sustainable Chem Eng 6: 15463–15470 (2018)

Article  Google Scholar 

Schäfer S, Kickelbick G. Double reversible networks: Improvement of self-healing in hybrid materials via combination of Diels-Alder cross-linking and hydrogen bonds. Macromolecules 51: 6099–6110 (2018)

Article  Google Scholar 

Wu P, Cheng H, Wang X, Shi R, Zhang C, Arai M, Zhao F. A self-healing and recyclable polyurethane-urea Diels-Alder adduct synthesized from carbon dioxide and furfuryl amine. Green Chem 23: 552–560 (2021)

Article  Google Scholar 

An H, Bo Y, Chen D, Wang Y, Wang H, He Y, Qin J. Cellulose-based self-healing hydrogel through boronic ester bonds with excellent biocompatibility and conductivity. RSC Adv 10: 11300–11310 (2020)

Article  Google Scholar 

Chen Y, Tang Z, Zhang X, Liu Y, Wu S, Guo B. Covalently cross-linked elastomers with self-healing and malleable abilities enabled by boronic ester bonds. ACS Appl Mater Interfaces 10: 24224–24231 (2018)

Article  Google Scholar 

Yang Z, Zhang Y, Li S, Zhang X, Wang T, Wang Q. Fully closed-loop recyclable thermosetting shape memory polyimide. ACS Sustainable Chem Eng 8: 18869–18878 (2020)

Article  Google Scholar 

Wan B, Zheng M S, Yang X, Dong X, Li Y, Mai Y W, Chen G, Zha J W. Recyclability and self-healing of dynamic cross-linked polyimide with mechanical/electrical damage. Energy Environ Mater 6: e12427 (2022)

Article  Google Scholar 

Gao W, Chen H, Cao J, Chen S, Ma Y, Chen Q, Zhu B, Jia J, Huang A, Bai Y. Size effect on the high-strength and electrically conductive polyolefin/reduced graphene oxide (RGO) composites. J Phys Chem C 122: 7968–7974 (2018)

Article  Google Scholar 

Kuang X, Guo E, Chen K, Qi H J. Extraction of biolubricant via chemical recycling of thermosetting polymers. ACS Sustainable Chem Eng 7: 6880–6888 (2019)

Article  Google Scholar 

Yin N, Xing Z, He K, Zhang Z. Tribo-informatics approaches in tribology research: A review. Friction 11(1): 1–22 (2023)

Article  Google Scholar 

Kumara C, Speed L, Viola M B, Luo H, Qu J. Using ionic liquid additive to enhance lubricating performance for low-viscosity engine oil. ACS Sustainable Chem Eng 9: 7198–7205 (2021)

Article  Google Scholar