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基本信息 喻楚英，女，1990年出生，籍贯湖南宁乡，2012年本科毕业于中南大学粉末冶金专业，2017年博士毕业于英国伦敦大学玛丽皇后学院材料学专业，师从Haixue Yan教授，主要研究方向为铁电陶瓷的设计与储能研究。2017年入职湖南大学材料科学与工程学院，开展功能高分子基材料以及碳基材料的设计以及储能/传感应用研究。近年来以第一作或通讯作者在Chemical Engineering Journal, Journal of the European Ceramic Society, Inorganic Chemistry, Applied Physics Letters,等期刊发表论文。为Advanced Materials等国际期刊的邀请审稿人。

教育背景

教育背景 2012.10-2017.03: 伦敦大学玛丽皇后学院（Queen Mary, University of London）， 材料科学与工程学院，博士2008.09-2012.07: 中南大学，粉末冶金研究院，学士

工作履历

工作履历 2019.12-至今:  湖南大学，材料科学与工程学院，副教授 2017.10-2019.12:  湖南大学，材料科学与工程学院，助理教授

研究领域

研究领域 1. 无铅压电/铁电陶瓷的制备及性能研究2. 微波/THz通信介质陶瓷的开发与研究3. 高分子基介电材料的设计与制备4. 储能/传感器件的设计与制备

学术成果

学术成果 (25) W. Liao, C. Yu*, Z. Peng, F. Xu, Y. Zhang, W. Zhong, Ultrasensitive Mg2+-modulated carbon nanotube/tannic acid aerogels for high-performance wearable pressure sensors, ACS Sustainable Chemistry & Engineering, 11 (2023) 2186-2197. (24) X. Guo, Y. Lu, D. Fu, C. Yu, X. Yang, W. Zhong, Ultrahigh ionic conductivity and alkaline tolerance of poly(amidoxime)-based hydrogel for high performance piezoresistive sensor, Chemical Engineering Journal, 452 (2023) 139208. (23) Y. Zou, Z. Chen, X. Guo, Z. Peng, C. Yu, W. Zhong, Mechanically robust and elastic graphene/aramid nanofiber/polyaniline nanotube aerogels for pressure sensors, ACS Applied Materials & Interfaces, 14 (2022) 17858-17868. (22) Z. Peng, C. Yu, W. Zhong*, Facile preparation of a 3D porous aligned graphene-based wall network architecture by confined self-assembly with shape memory for artificial muscle, pressure sensor, and flexible supercapacitor, ACS Applied Materials & Interfaces, 14 (2022) 17739-17753. (21) S. Tang, C. Yu*, X. Liu, D. Fu, W. Liao, F. Xu, W. Zhong*, 2-Methylimidazole assisted synthesis of nanocrystalline shell reinforced PPy hydrogel with high mechanical and electrochemical performance, Chemical Engineering Journal, 430 (2022) 133033. (20) G. Viola, Y. Tian, C. Yu, Y. Tan, V. Koval, X. Wei, K.-L. Choy, H. Yan, Electric field-induced transformations in bismuth sodium titanate-based materials, Progress in Materials Science, 122 (2021) 100837. (19) C. Yu, G. Viola, D. Zhang, Z. Stroscio, Z. Hu, V.R. Eskilla, S. Grasso, R.M. Wilson, K. Zhou, N. Bonini, A.D. Fortes, I. Abrahams, H. Yan, Structural Evolution in BiNbO4, Inorganic Chemistry, 60 (2021) 8507-8518. (18) X. Liu, C. Yu*, Z. Chen, F. Xu, W. Liao, W. Zhong*, Biomass Peach Gum-Derived Heteroatom-Doped Porous Carbon via In Situ Molten Salt Activation for High-Performance Supercapacitors, Energy Fuels, 35 (2021) 19801–19810. (20) Y. Zou, Z. Chen, Z. Peng, C. Yu, W. Zhong*, Mechanically strong multifunctional three-dimensional crosslinked aramid nanofiber/reduced holey graphene oxide and aramid nanofiber/reduced holey graphene oxide/polyaniline hydrogels and derived films, Nanoscale, 13 (2021) 16734-16747. (19) Z. Zhang, C. Yu, Z. Peng, W. Zhong*, Mechanically stiff and high-areal-performance integrated all-in-wood supercapacitors with electroactive biomass-based hydrogel, Cellulose, 28 (2021) 389-404. (18) D. Wu, C. Yu, W. Zhong, Bioinspired strengthening and toughening of carbon nanotube@polyaniline/graphene film using electroactive biomass as glue for flexible supercapacitors with high rate performance and volumetric capacitance, and low-temperature tolerance, Journal of Materials Chemistry A, 9 (2021) 18356-18368. (17) L. Gao, Z. Chen, H. Zhao, Y. Zou, C. Yu, W. Zhong*, Controllable preparation of nitrogen-doped hierarchical and honeycomb-like porous carbon/graphene based on composites of graphene oxide and polyaniline nanorod arrays for high performance supercapacitors, Journal of Energy Storage, 36 (2021) 102314. (16) Z. Chen, S. Zhao, H. Zhao, Y. Zou, C. Yu, W. Zhong*, Nitrogen-doped interpenetrating porous carbon/graphene networks for supercapacitor applications, Chemical Engineering Journal, 409 (2021) 127891. (15) L. Chang, Z. Peng, T. Zhang, C. Yu, W. Zhong*, Nacre-inspired composite films with high mechanical strength constructed from MXenes and wood-inspired hydrothermal cellulose-based nanofibers for high performance flexible supercapacitors, Nanoscale, 13 (2021) 3079-3091. (14) Y. Zhou, Y. Zou, Z. Peng, C. Yu, W. Zhong*, Arbitrary deformable and high-strength electroactive polymer/MXene anti-exfoliative composite films assembled into high performance, flexible all-solid-state supercapacitors, Nanoscale, 12 (2020) 20797-20810. (13) Y. Lin, Z. Chen, C. Yu, W. Zhong*, Facile synthesis of high nitrogen-doped content, mesopore-dominated biomass-derived hierarchical porous graphitic carbon for high performance supercapacitors, Electrochimica Acta, 334 (2020) 135615. (12) Z. Chen, X. Tan, C. Yu, W. Zhong*, Strategy for constructing nitrogen-doped graphene structure by patching reduced graphene oxide under low temperature and its application in supercapacitors, Industrial & Engineering Chemistry Research, 59 (2020) 7475-7484. (11) W. Zhang, Y. Zou, C. Yu, W. Zhong*, Nitrogen-enriched compact biochar-based electrode materials for supercapacitors with ultrahigh volumetric performance, Journal of Power Sources, 439 (2019) 227067. (10) D. Fu, Z. Chen, C. Yu, X. Song, W. Zhong*, Bimetallic-organic coordination polymers to prepare N-doped hierarchical porous carbon for high performance supercapacitors, Progress in Natural Science: Materials International, 29(5) (2019) 495-503. (9) Y. Lin, Z. Chen, C. Yu, W. Zhong*, Heteroatom-doped sheet-like and hierarchical porous carbon based on natural biomass small molecule peach gum for high-performance supercapacitors, ACS Sustainable Chemistry & Engineering, 7(3) (2019) 3389-3403. (8) H. Li, C. Yu*, Y. Zhou, H. Tuo, W. Zhong*, Biligand metal-organic coordination polymer to prepare high N-doped content and structure controllable porous carbon with high-electrochemical performance, Electrochimica Acta, 308 (2019) 263-276. (7) Y. Tan, G. Viola, V. Koval, C. Yu, A. Mahajan, J. Zhang, H. Zhang, X. Zhou, N.V. Tarakina, H. Yan, On the origin of grain size effects in Ba(Ti0.96Sn0.04)O3 perovskite ceramics, Journal of European Ceramic Society, 39 (2019) 2064-2075. (6) Z. Chen, S. Zhao, Y. Zhou, C. Yu, W. Zhong, W. Yang, Nacre-like laminate nitrogen-doped porous carbon/carbon nanotubes/graphene composite for excellent comprehensive performance supercapacitors, Nanoscale, 10(32) (2018) 15229-15237. (5) W. Zhang, C. Yu*, L. Chang, W. Zhong*, W. Yang, Three-dimensional nitrogen-doped hierarchical porous carbon derived from cross-linked lignin derivatives for high performance supercapacitors, Electrochimica Acta, 282 (2018) 642-652. (4) C. Yu, H. Li, J. Luo, M. Zheng, W. Zhong*, W. Yang, Metal-organic coordination polymer/multi-walled carbon nanotubes composites to prepare N-doped hierarchical porous carbon for high performance supercapacitors, Electrochimica Acta, 284 (2018) 69-79. (3) C. Yu, G. Viola, D. Zhang*, K. Zhou, V. Koval, A. Mahajan, R.M. Wilson, N.V. Tarakina, I. Abrahams, H. Yan*, Phase evolution and electrical behaviour of samarium-substituted bismuth ferrite ceramics, Journal of European Ceramic Society, 38(4) (2018) 1374-1380. (2) C. Yu, Y. Zeng, B. Yang*, R. Wylde, R. Donnan, J. Wu, J. Xu, F. Gao, I. Abrahams, M. Reece, H. Yan, SrFe12O19 based ceramics with ultra-low dielectric loss in the millimetre-wave band, Applied Physics Letters, 112(14) (2018) 143501 (1) C. Yu, Y. Zeng, B. Yang*, R. Donnan, J. Huang, Z. Xiong, A. Mahajan, B. Shi, H. Ye, R. Binions, N. V. Tarakina, M. J. Reece, H. Yan*, Titanium dioxide engineered for near-dispersionless high terahertz permittivity and ultra-low-loss, Scientific Report, 7 (2017).