[1] N. Kang*, Y. X. Lin*, L. Yang, D. Lu, J. Xiao, Y. Qi, M. Cai, Cathode porosity is a missing key parameter to optimize lithium-sulfur battery energy density. Nat. Commun. 2019, 10, 4597. (共同一作,中科院一区,影响因子16.6, 被引171次,并被Nat. Energy 2019, 4, 908以“Less pore equals more”为题作专题报道) [2] A. Wang, X. Wu, Z. Zou, Y. Qiao, D. Wang, L. Xing, Y. Chen, Y. X. Lin#, M. Avdeev, S. Shi#, The Origin of Solvent Deprotonation in LiI-added Aprotic Electrolytes for Li-O2 Batteries. Angew. Chem. Int. Ed. 2023, 135, e202217354. (共同通讯,中科院一区,影响因子16.6) |
[3] M. Fu, W. Chen, Y. Lei#, H. Yu, Y. X. Lin#, M. Terrones#, Biomimetic Construction of Ferrite Quantum Dot/Graphene Heterostructure for Enhancing Ion/Charge Transfer in Supercapacitors. Adv. Mater. 2023, 35, 2300940. (共同通讯,中科院一区,影响因子29.4) [4] Y. X. Lin, J. Ticey, V. Oleshko, Y. J. Zhu, X. S. Zhao, C. S. Wang, J. Cumings, Y. Qi, Carbon-Nanotube-Encapsulated-Sulfur Cathodes for Lithium-Sulfur Batteries: Integrated Computational Design and Experimental Validation. Nano Lett. 2022, 22, 441. (中科院一区,影响因子10.8) [5] S. Lin, Y. X. Lin#, B. He, P. Mi, B. Pu, Y. Ren, G. Wang, Y. Luo, S. Q. Shi#, Reclaiming neglected compounds as promising solid state electrolytes by predicting electrochemical stability window with dynamically determined decomposition pathway. Adv. Energy Mater. 2022, 12, 2201808. (共同通讯,中科院一区,影响因子27.8) |
