个人简介
教育背景
1991.9-1995.7 东华理工大学应用化学系,学士
1995.9-1998.7 中国科学院过程工程研究所,硕士
1998.9-2001.7 清华大学材料系,博士
工作履历
2001.8-至今 清华大学材料学院助研、副研究员、教授
期间2004.11-2006.09,东京大学物理系博士后 (JSPS资助)
奖励与荣誉
2023,中国电子元件行业协会科技进步奖一等奖
2022,中国建筑材料联合会⋅中国硅酸盐学会建筑材料科学技术奖基础研究奖一等奖
2021,教育部自然科学奖一等奖
2008,清华大学“林枫”优秀辅导员奖
2007,中国硅酸盐学会青年科技奖
2005,入选北京市“科技新星”计划
研究领域
面向高端电子用氧化物无机介质材料与器件
面向能源转换的氧化物高温热电材料与器件
近期论文
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B. Yang, Q. Zhang, H. Huang, et al. Engineering relaxors by entropy for high energy storage performance, Nature Energy, doi.org/10.1038 (2023).
Z. Zhou, Y. Huang, B. Wei, et al. Compositing effects for high thermoelectric performance of Cu2Se-based materials, Nature Communications, 14(1), 2410 (2023).
Y. Zheng, H. Chen, Z. Zhou, et al. Electrical Property Enhancement in Orientation‐Modulated Perovskite La‐Doped SrTiO3 Thermoelectric Thin Films, Advanced Functional Materials, 2301815 (2023).
B. Yang, Y. Zhang, H. Pan, et al. High-entropy enhanced capacitive energy storage, Nature Materials, 21(9), 1074-1080 (2022).
Y. Liu, Y. Wang, J. Ma, et al. Controllable electrical, magnetoelectric and optical properties of BiFeO3 via domain engineering, Progress in Materials Science, 127, 100943 (2022).
Y. Yang, J. Han, Z. Zhou, et al. Seeking new layered oxyselenides with promising thermoelectric performance, Advanced Functional Materials, 32(18), 2113164 (2022).
Y. Liu, J. Liu, H. Pan, et al. Phase-Field Simulations of Tunable Polar Topologies in Lead-Free Ferroelectric/Paraelectric Multilayers with Ultrahigh Energy-Storage Performance, Advanced Materials, 34(13) (2022).
H. Pan, S. Lan, S. Xu, et al. Ultrahigh energy storage in superparaelectric relaxor ferroelectrics, Science, 374, 100-104 (2021).
H. Pan, F. Li, Y. Liu, et al. Ultrahigh-energy density lead-free dielectric films via polymorphic nanodomain design. Science, 365, 578-582 (2019).
G. K. Ren, S. Wang, Z. Zhou, et al. Complex electronic structure and compositing effect in high performance thermoelectric BiCuSeO. Nature Communications, 10(1): 2814 (2019).
G. K. Ren, J. Lan, L. Zhao, et al. Layered oxygen-containing thermoelectric materials: mechanisms, strategies and beyond. Mater. Today, 29, 68 (2019)
H. Pan, J. Ma, J. Ma, et al. Giant energy density and high efficiency achieved in bismuth ferrite-based film capacitors via domain engineering. Nature Communications, 9(1) 1813 (2018).
J. L. Lan, Y. Liu, B. Zhan, et al. High thermoelectric figure of merit ZT > 1.0 observed in BiCuSeO. Adv. Mater., 25, 5086 (2013).
Y. Liu, L. Zhao, C. Liu, et al. Remarkable enhancement in thermoelectric performance of BiCuSeO by Cu deficiencies. J. Am. Chem. Soc., 133, 20112 (2011) .
C.-W. Nan, G. Liu, Y.-H. Lin, et al. Magnetic-field-induced electric polarization in multiferroic nanostructures. Phys. Rev. Lett., 94, 197203 (2005).
J. Wu, C. -W. Nan, Y. -H. Lin, et al. Giant dielectric permittivity observed in Li and Ti doped NiO. Phys. Rev. Lett., 89, 217601 (2002).