[1] J. Lin, J. Huang, J. Peng, J. Luo, L. Wang* and X. Peng “Synergistic Proton and Oxygen Transport Optimization via Binder Engineering for High-Efficiency ORR in High-Temperature Fuel Cell.”Nano Energy, 142, Part A (2025) 111205
[2] J. Lin, P. Wang, A. Gao, J. Luo, Z. Li, L. Wang*, X. Peng “An imidazole-philic dispersible ionic liquid provides ample proton transport channels and high proton performances for high temperature proton exchange membranes.” Chemical Engineering Journal 475(2023): 146146
[3] J. Lin, H.Huang, J.Peng, W.Zhang,J.hu, L.Wang*,“Optimizing Side-Chain Grafted PBI Binders to Mitigate Polarization Losses in High-Temperature Proton Exchange Membrane Fuel Cells”Chemical Engineering Journal, (2025): 164713
[4] J. Lin, P. Wang, J. Bin and L. Wang* “Achieving 1060 mW cm-2 with 0.6 mg cm-2 Pt loading based on Imidazole-Riched Semi-Interpenetrating Proton Exchange Membrane at High Temperature Fuel Cells” Small, 2024, 2311767
[5] J. Lin, L. Wang, T. Zinkevich, S. Indris, Y. Suo and C. Korte* "Influence of residual water and cation acidity on the ionic transport mechanism in proton-conducting ionic liquids." Physical Chemistry Chemical Physics 22.3 (2020): 1145-1153.
[6] J. Lin, S. Willbold, T. Zinkevich, S. Indris and C. Korte* “Ionic (Proton) Transport and Molecular Interaction of Ionic Liquid-PBI Blends for the use as Electrolyte Membrane" Journal of Molecular Liquids 2021: 116964.
[7] J. Lin, D. Noferini, E. Veroutis, O. Holderer and C. Korte* “The Charge Transport Mechanism in Brønsted-Acidic Proton Conducting Ionic Liquid/Water Systems – An NMR and QENS Study” Journal of Molecular Liquids 2021: 117712.
[8] J. Lin and C. Korte* "PBI‐type Polymers and Acidic Proton Conducting Ionic Liquids–Conductivity and Molecular Interactions." Fuel cells 20.4 (2020): 461-468.
[9] J. Lin and C. Korte* "Influence of the acid–base stoichiometry and residual water on the transport mechanism in a highly-Brønsted-acidic proton-conducting ionic liquid." RSC Advances 2020. 10(69), 42596-42604.
[10] J. Lin, X. Yan, G. He*, W. Chen, D. Zhen, T. Li, L. Ma and X. Wu “Thermoplastic interpenetrating polymer networks based on polybenzimidazole and poly (1, 2-dimethy-3-allylimidazolium) for anion exchange membranes." Electrochimica Acta 2017, 257: 9-19.
[11] P.Wang, J. Lin, Y. Wu, L. Wang* “Construction of high-density proton transport channels in phosphoric acid doped polybenzimidazole membranes using ionic liquids and metal-organic frameworks.” Journal of Power Sources, 2023.560 (2023) 232665.
[12] J. Huang, G. Wei, J. Lin, J. Peng, L. Wang*, J. Liu and X. Peng“Achieving excellent proton conductivity and power density by introducing stable nitrogen-rich carbonized metal–organic frameworks into hightemperature proton exchange membranes” Journal of Materials Chemistry A,2025
[13] Y. Suo, H. Hou, J. Lin, Y. Chen., C. Liu, C. Wang, P. Schulz, K. Wippermann and C. Korte* “Binary Mixtures of Proton-Conducting Ionic Liquids as Electrolytes for Medium-Temperature Polymer Electrolyte Membrane Fuel Cells.” The Journal of Physical Chemistry C, 2021.125, 21588−21594
[14] S.Hussain, M. Hussain, Q.Zhou, J. Peng, J. Lin, B. Zhang, L. Wang* “Polypyrrole as the MOFs/polymer interfacial binder applied in mixed matrix porous separator for high temperature safe lithium-ion batteries” Chemical Engineering Journal, 502 (2024) 158149
[15] L. Ma, S. Fan, D. Zhen, X. Wu, S. Liu, J. Lin, S. Huang, W. Chen and G. He “Electrochemical Reduction of CO2 in Proton Exchange Membrane Reactor: The Function of Buffer Layer.” Industrial & Engineering Chemistry Research, 2017, 56, 37, 10242–102
