张金波，女，博士，beat365唯一官方网站讲师。共参与发表SCI收录论文30余篇，其中以第一作者/第一通讯作者发表SCI论文9篇（中科院一区、二区8篇），授权国家发明专利1件。

邮箱：zhangjinbo12010@xaau.edu.cn

通讯地址：陕西省西安市阎良区航空产业基地蓝天二路9号

一、研究领域或方向

铁电/介电/储能/压电材料；电场辅助闪烧致密化烧结技术

二、教育履历

2016年09月2020年07月 陕西科技大学（学士）

2020年09月2022年07月 陕西科技大学（硕士）

2022年09月2025年12月 陕西科技大学（博士）

三、工作经历

2025年12月至今 西安航空学院（讲师）

四、代表性学术成果

（一）研究项目

1. 西安市科学技术协会人才托举项目：力学弯曲调控二维CrX₂(X = S, Se, Te)电催化性能及力-电耦合机理研究，参与。

（二）学术论文

[1] J. Zhang, Y. Pu*, Y. Hao, et al. Novel ternary BiFeO₃-based perovskite-pyrochlore composite ceramics for enhanced energy-storage performance. Chemical Engineering Journal, 2025, 516: 164008. (SCI收录; 中科院一区; IF = 13.2)

[2] J. Zhang, Y. Pu*, Y. Hao, et al. Synergistic high-entropy engineering and grain boundary engineering enable wide-temperature stable BiFeO₃-based ceramics with ultrahigh energy storage density. Chemical Engineering Journal, 2025, 520: 166438. (SCI收录; 中科院一区; IF = 13.2)

[3] J. Zhang, Y. Pu*, Y. Hao, et al. Achieving high storage energy density in lead-free BiFeO₃-based dielectric ceramics via reactive flash sintering. Journal of the European Ceramic Society, 2026, 46(4): 117920. (SCI收录; 中科院一区; IF = 6.2)

[4] J. Zhang, Y. Pu*, Y. Hao, et al. Realizing excellent energy-storage performance under low electric fields in lead-free BiFeO₃-BaTiO₃-based ceramics with ultrahigh polarization difference. Journal of Energy Storage, 2025, 105: 114786. (SCI收录; 中科院二区; IF = 9.8)

[5] Y. Pu, J. Zhang*, Y. Hao, et al. Simultaneously achieving wide-temperature stability and ultrahigh energy-storage density in BiFeO₃-based high-entropy ceramics under medium-low electric fields. Journal of Alloys and Compounds, 2025, 1040: 183487. (SCI收录; 中科院二区; IF = 6.3)

[6] J. Zhang, Y. Pu*, Y. Hao, et al. Achieving superior energy storage density in BiFeO₃-BaTiO₃-based relaxor ceramics via configurational entropy tunning and phase structure evolution, Ceramics International, 2025, 51: 4048-4057. (SCI收录; 中科院二区; IF = 5.6)

[7] J. Zhang, Y. Pu*, Y. Hao, et al. Antiferroelectric-like BiFeO₃-SrTiO₃ based ceramics with high breakdown strength and energy-storage density. Journal of Alloys and Compounds, 2023, 903: 172147. (SCI收录; 中科院二区; IF = 6.3)

[8] J. Zhang, Y. Pu*, L. Zhang, et al. Obtaining high breakdown strength and excellent charge-discharge properties in bismuth ferrite-based lead-free relaxor ferroelectric ceramics. Journal of Material Science, 2023, 58: 12031-12041. (SCI收录; 中科院三区; IF = 3.5)

[9] J. Zhang, Y. Pu*, X. Du, et al. Effect of Na/K ratio on structure evolution, dielectric and energy storage properties of potassium sodium niobate-based borate glass-ceramics. Journal of Non-Crystalline Solids, 2022, 597: 121930. (SCI收录; 中科院二区; IF = 3.5)

[10] Y. Hao, Y. Pu*, J. Zhang, et al. Ultra-high energy storage efficiency achieved through the construction of interlocking microstructure and excitation of depressor effects. Composites Part B: Engineering, 2025, 290: 111943. (SCI收录; 中科院一区; IF = 14.2)

（三）授权专利

1. 蒲永平，张金波等，一种具有高介电常数和频率稳定性的钛酸锶陶瓷的制备方法[P],中国, ZL202210029451.2。