2025
[1] D. Li, Z. Zheng, B. Yang, L. Chen, D. Shi, J. Guo, C.-W. Nan, Atomic-Scale High-Entropy Design for Superior Capacitive Energy Storage Performance in Lead-Free Ceramics, Advanced Materials 37(10) (2025) 2409639.
[2] C. Zhou, F. Yan, Z. Zheng, B. Yang, T. Liu, J. Guo, Achieving superior capacitive energy storage in tape-casting fabricated Bi0.5Na0.5TiO3-based relaxor ferroelectrics via multiscale regulation, Energy Storage Materials 75 (2025) 104082.
[3] Y. Yang, K. Xu, B. Yang, X. Hou, Z. Dou, Y. Li, Z. Zheng, G. Luo, N. Luo, G. Ge, J. Zhai, Y. Fan, J. Wang, H. Yang, Y. Zhang, J. Wang, C. Wang, S. Jiang, K. Li, J. Guo, H. Huang, G. Zhang, Giant energy storage density with ultrahigh efficiency in multilayer ceramic capacitors via interlaminar strain engineering, Nature Communications 16(1) (2025) 1300.
[4] X. Kong, L. Yang, F. Meng, T. Zhang, H. Zhang, Y.-H. Lin, H. Huang, S. Zhang, J. Guo, C.-W. Nan, High-entropy engineered BaTiO3-based ceramic capacitors with greatly enhanced high-temperature energy storage performance, Nature Communications 16(1) (2025) 885.
[5] Z. Zhou, W. Bai, N. Liu, W. Zhang, S. Chen, P. Wang, J. Liu, J. Zhai, J. Guo, G. Du, Y. Wu, Z. Hong, W. Li, Z. Pan, Ultrahigh capacitive energy storage of BiFeO3-based ceramics through multi-oriented nanodomain construction, Nature Communications 16(1) (2025).
[6] F. Yan, S. Wang, J. Qian, Z. Zheng, L. Gu, J. Guo, J. Zhai, Tape-Casting Lead-Free Dielectrics Permit Superior Capacitive Energy Storage Performance, Advanced Energy Materials 15(14) (2025) 2403535.
[7] N. Arshad, M.S. Irshad, M. Alomar, J. Tao, X. Wang, G. Zhenzhen, M.A.K. Shah, M.S. Asghar, U. Ghazanfar, H.X. Nang, Z. Ouyang, N. Mushtaq, V.D. Dao, J. Guo, H. Wang, A Sustainable Solar Evaporation Strategy: Higher Condensate Yields Through Remote Condensing Structure via Polyelectrolyte Solar Evaporator, Advanced Functional Materials (2025).
[8] W. Fang, J. Wu, H. Qi, H. Ma, D. Zhou, H. Yu, Z. Zheng, J. Guo, J. Chen, Synergy ascension of Piezoresponse and curie temperature in bismuth-layered ceramics via defect engineering, Acta Materialia 293 (2025) 121108.
[9] Y. Zhang, X. Zhang, Z. Zheng, J. Xie, J. Lou, J. Qin, S. Wang, Y. He, Y. Du, B. Yang, X. Huang, H. Han, Y. Wu, S. Liu, A. Khan, Z. Li, Q. Ye, S.a. Yang, J. Ma, H. Zhang, X. Liu, Q. Chen, W. Hu, J. Ma, J. Yi, J. Guo, S. Peng, H. Pan, L. Wu, C.-W. Nan, Artificial ferroelectric-like hysteresis in antiferroelectrics with non-uniform disorder, Acta Materialia (2025) 121085.
[10] P. Panfilov, M. Mezhenov, A. Kuklina, J. Guo, D. Zaytsev, On cleavage crack morphology in some rock materials of different genesis, Materials Letters 379 (2025).
[11] Z. Li, W. Zhou, J. Guo, X. Lv, S. Lin, Y. Li, L. Gu, F. Yan, Outstanding comprehensive energy storage performance in BNT-based lead-free ceramics via synergistic optimization strategy, Chemical Engineering Journal 504 (2025).
[12] H. Zhang, Z. Cheng, Y. Guo, Y. Song, Z. Wang, J. Zhao, L. Yuan, Y. Yuan, J. Guo, Y. Yao, Y. Huang, Localized electric field enabling rapid and quasi-dry recycling of cathode active materials at ambient condition, Energy Storage Materials 75 (2025).
[13] S. Liu, C. Lin, J. Chen, H. Liu, W. Shi, R. Hu, H. Liu, J. Lian, J. Guo, Y. Yao, Finely Tailoring Metal–Support Interactions via Transient High-Temperature Pulses, ACS Applied Materials & Interfaces 17(8) (2025) 12328-12338.
[14] Y. Song, H. Zhang, S. Guo, C. Lin, Z. Wang, X. Hu, M. Cao, L. Qie, D. Li, X. Ji, J. Guo, Y. Yao, Y. Huang, Kinetically tunable O vacancies in LiFePO4 for improved Li+/e-conduction and high-rate cycling, Nano Research (2025).
成果展示
2025 年 6 月 14 日课题组近五年已在国际高水平SCI期刊上发表文章60余篇,公开多项发明专利郭金明团队在介电储能陶瓷领域取得系列进展
2025 年 2 月 17 日陶瓷介质电容器因其高功率密度、快充放电速率,被广泛应用于通讯、新能源汽车及脉冲电磁能装备等领域。近日…