导师简介

个人简历：
吴昊，四川大学材料科学与工程学院新能源系引进人才，研究员，博士生导师，全国百篇优秀博士论文获得者，四川省特聘专家，四川大学“青年科学技术带头人”。2010年获四川大学皮革科学与工程专业工学博士学位；2010年～2011年在四川大学高分子科学与工程学院博士后工作站工作，2011年～2013年澳大利亚昆士兰大学化工学院博士后。2014年～2018年四川大学材料科学与工程学院副教授，2018年9月破格晋升为研究员（正高四级）。
主要从事纳米材料在能源、化工、环境等领域的应用；特别是近几年在新型锂离子电池电极材料、多孔碳材料等领域进行研究工作；先后承担多项国家与省部级科研项目，包括国家重点研发计划、国家自然科学基金面上项目和青年基金、教育部优秀博士论文专项基金、四川大学优秀青年基金、四川省重点攻关项目等。已在国际知名化学及材料学术期刊如Advanced Energy Materials, Advanced Functional Materials, Energy Storage Materials, Green Chemistry, Journal of Materials Chemistry A, Journal of Power Sources, ACS Applied Materials & Interfaces等发表SCI学术论文近90篇，5篇论文入选ESI TOP 1%高被引论文，H-index因子26。
研究方向：
1、锂二次电池电极材料
2、碳基新型储能材料
3、石墨烯功能材料
联系方式：
地 址： 四川省成都市望江路29号四川大学材料科学与工程学院 610064。
电 话： (O)
E-mail ：hao.wu@scu.edu.cn

已发表学术论文：
Researcher ID:http://www.researcherid.com/rid/F-8643-2011


封面论文：

近年来代表性论文：
(28) Realizing Reversible Conversion-Alloying of Sb(V) in Polyantimonic Acid for Fast and Durable Lithium- and Potassium-Ion Storage. B. Y. Wang, Z. W. Deng, Y. T. Xia, J. X. Hu, H. J. Li, H. Wu*, Q. B. Zhang, Y. Zhang*, H. K. Liu, S. X. Dou, Advanced Energy Materials 10, **, 2020. (SCI, IF=25.245), Highlighted as Inside Front Cover.
(27) A Flexible 3D Multifunctional MgO-Decorated Carbon Foam@CNTs Hybrid as Self-Supported Cathode for High-Performance Lithium-Sulfur Batteries. M. W. Xiang, H. Wu (co-first author), H. Liu*, H. K. Liu, S. X. Dou*, Advanced Functional Materials 27, **, 2017. (SCI, IF=16.836), Highlighted as Front Cover/ Nature Index Journal.
(26) Nitrogen-Doped Graphene Ribbon Assembled Core-Sheath MnO@Graphene Scrolls as Hierarchically Ordered 3D Porous Electrodes for Fast and Durable Lithium Storage. Y. Zhang, P. H. Chen, X. Gao, B. Wang, H. Liu, H. Wu*, H. K. Liu, S. X. Dou, Advanced Functional Materials 26, 7754-7765, 2016. (SCI, IF=16.836), Highlighted as Front Cover/Nature Index Journal/Awarded by the ESI as a TOP 1% Highly Cited Paper.
(25) Graphene-scroll-sheathed α-MnS coaxial nanocables embedded in N, S Co-doped graphene foam as 3D hierarchically ordered electrodes for enhanced lithium storage. X. Gao, B. Y. Wang, Y. Zhang*, H. Liu, H. K. Liu, H. Wu*, S. X. Dou, Energy Storage Materials 16, 46-55, 2019. (SCI, IF=16.28), Awarded by the ESI as a TOP 1% Highly Cited Paper.
(24) An Engineered Self-Supported Electrocatalytic Cathode and Dendrite-Free Composite Anode Based on 3D Double-Carbon Hosts for Advanced Li-SeS₂ Batteries. M. Wang, Y. Guo, B. Y. Wang, H. Luo, X. M. Zhang, Q. Wang, Y. Zhang, H. Wu*, H. K. Liu, S. X. Dou, Journal of Materials Chemistry A 8, 2969-2983, 2020. (SCI, IF=11.301), Highlighted as Front Cover.
(23) Encapsulating yolk-shell FeS₂@carbon microboxes into interconnected graphene framework for ultrafast lithium/sodium storage. P. Jing, Q. Wang, B. Y. Wang, X. Gao, Y. Zhang, H. Wu*, Carbon 159, 366-377, 2020. (SCI, IF=8.821).
(22) An integrated hybrid interlayer for polysulfides/selenides regulation toward advanced Li–SeS₂ batteries. Y. Zhang, Y. Guo, B. Y. Wang, Y. H. Wei, P. Jing, H. Wu*, Z. M. Wang, Y. Zhang*, Carbon 161, 413-422, 2020. (SCI, IF=8.821).
(21) Graphene Nanoscroll-based Integrated and Self-standing electrode with a Sandwich Structure for Lithium Sulfur Battery. Y. Guo, Y. Zhang, Y. Sun, H. Wu*, Y. Zhang*, Inorganic Chemistry Frontiers 7, 592-596, 2020. (SCI, IF=5.958). Highlighted as Inside Front Cover.
(20) Bio-Derived Hierarchical Multicore-Shell Fe₂N-Nanoparticle-Impregnated N-Doped Carbon Nanofiber Bundles A Host Material for Lithium-/Potassium-Ion Storage. H. J. Jiang, L. Huang, Y. H. Wei, B. Y. Wang, H. Wu*, Y. Zhang*, H. K. Liu, S. X. Dou, Nano-Micro Letters 11, 56, 2019. (SCI, IF=12.264).
(19) Construction of Electrocatalytic and Heat-Resistant Self-Supporting Electrodes for High-Performance Lithium–Sulfur Batteries. X. M. Zhang, Y. H. Wei, B. Y. Wang, M. Wang, Y. Zhang*, Q. Wang, H. Wu*, Nano-Micro Letters 11, 78, 2019. (SCI, IF=12.264).
(18) Sandwiching Defect-Rich TiO_2?δ Nanocrystals into a Three-Dimensional Flexible Conformal Carbon Hybrid Matrix for Long-Cycling and High-Rate Li/Na-Ion Batteries. B. Y. Wang, W. Yuan, X. M. Zhang, M. W. Xiang, Y. Zhang*, H. Liu, H. Wu*, Inorganic Chemistry 58, 8841-8853, 2019. (SCI, IF=4.825). Nature Index Journal.
(17) Biotemplate-Based Engineering of High-Temperature Stable Anatase TiO₂ Nanofiber Bundles with Impregnated CeO2 Nanocrystals for Enhanced Lithium Storage. Y. H. Wei, H. Chen, H. J. Jiang, H. Liu, Y. Zhang, H. Wu*, ACS Sustainable Chemistry & Engineering 7,7823-7832, 2019. (SCI, IF= 7.632).
(16) Anatase inverse opal TiO_2-x@N-doped C induced the dominant pseudocapacitive effect for durable and fast lithium/sodium storage. N. T. Wu, X. Qiao, J. Shen, G. Liu, T. Sun, H. Wu, H. S. Hou, X. Liu*, Y. Zhang*, X. B. Ji*, Electrochimica Acta 299, 540-548, 2019. (SCI, IF=6.215) Awarded by the ESI as a TOP 1% Highly Cited Paper.
(15) Interwoven V₂O₅ Nanowire/Graphene Nanoscroll Hybrid Assembled as Efficient Polysulfide-Trapping-Conversion Interlayer for Long-Life Lithium-Sulfur Batteries. Y. Guo, Y. Zhang, Y. Zhang*, M. W. Xiang, H. Wu*, H. K. Liu, S. X. Dou, Journal of Materials Chemistry A 6, 19358–19370, 2018. (SCI, IF=11.301) Highlighted as Front Cover/Selected as Journal of Materials Chemistry A HOT Papers for 2018.
(14) Tailoring yolk–shell FeP@carbon nanoboxes with engineered void space for pseudocapacitance-boosted lithium storage. Q. Wang, B. Y. Wang, Y. Zhang, H. Wu*, Inorganic Chemistry Frontiers 5, 2605–2614, 2018. (SCI, IF=5.958) Selected as Inorganic Chemistry Frontiers HOT Articles for 2018.
(13) Bottom-Up Construction of Reduced-Graphene-Oxide-Anchored MnO with an Nitrogen-Doped Carbon Coating for Synergistically Improving Lithium-Ion Storage. Y. J. Wang, H. Wu*, Z. Liu, H. Zhao, Y. Zhang*, Inorganic Chemistry 57, 13693-13701, 2018. (SCI, IF=4.825) Nature Index Journal.
(12) Hierarchically Porous N,S-Codoped Carbon-Embedded Dual Phase MnO/MnS Nanoparticles for Efficient Lithium Ion Storage. Y. J. Wang, H. Wu (co-first author), L. Huang, H. Zhao, Y. Zhang*, Inorganic Chemistry 57, 7993-8001, 2018. (SCI, IF=4.825) Nature Index Journal.
(11) Hollow SnO₂ nanospheres with oxygen vacancies entrapped by a N-doped graphene network as robust anode materials for lithium-ion batteries. N. T. Wu, W. Du, X. M. Liu*, H. Wu*, Y. B. He*, Nanoscale 10, 11460-11466, 2018. (SCI, IF=6.895) Selected as 2018 Nanoscale Theme Collection International Year of the Periodic Table: Elements for Next Generation Batteries/Awarded by the ESI as a TOP 1% Highly Cited Paper.
(10) A flexible 3D nitrogen-doped carbon foam@CNTs hybrid hosting TiO₂ nanoparticles as free-standing electrode for ultra-long cycling lithium-ion batteries. W. Yuan, B. Y. Wang, H. Wu*, M. W. Xiang, H. Liu, Y. Zhang*, H. K. Liu, S. X. Dou,Journal of Power Sources379, 10-19, 2018. (SCI, IF=8.247)
(9) Natural Silk Cocoon Derived Nitrogen-doped Porous Carbon Nanosheets for High Performance Lithium-Sulfur Batteries. M. W. Xiang, Y. Wang, J. H. Wu, Y. Guo, H. Wu*, Y. Zhang, H. Liu*, Electrochimica Acta 227, 7-16, 2017. (SCI, IF=6.215)
(8) Efficient Synthesis of Graphene Nanoscrolls for Fabricating Sulfur-Loaded Cathode and Flexible Hybrid Interlayer toward High-Performance Li?S Batteries. Y. Guo, G. Zhao, N. T. Wu, Y. Zhang*, M. W. Xiang, B. Wang, H. Liu, H. Wu*, ACS Applied Materials & Interfaces8, 34185-34193, 2016. (SCI, IF=8.758)
(7) Template-Engaged Synthesis of 1D Hierarchical Chainlike LiCoO₂ Cathode Materials with Enhanced High-Voltage Lithium Storage Capabilities. N. T. Wu, Y. Zhang*, Y. H. Wei, H. Liu, H. Wu*, ACS Applied Materials & Interfaces8, 25361-25368, 2016. (SCI, IF=8.758)
(6) Flake-like LiCoO₂ with exposed {010} facets as a stable cathode material for highly reversible lithium storage. N. T. Wu, Y. Zhang*,Y. Guo, S. J. Liu, H. Liu, H. Wu*,ACS Applied Materials & Interfaces8, 2723-2731, 2016. (SCI, IF=8.758)
(5) Fabrication of Li⁺-Conductive Li₂ZrO₃-Based Shell Encapsulated LiNi_0.5Co_0.2Mn_0.3O₂ Microspheres as High-Rate and Long-Life Cathode Materials for Li-Ion Batteries. H. Wu, Z.Y. Wang, S. J. Liu, L. Zhang, Y. Zhang*, ChemElectroChem 2, 1921-1928, 2015. (SCI, IF=4.154) Highlighted as Front Cover.
(4) Facile synthesis of one-dimensional LiNi_0.8Co_0.15Al_0.05O₂ microrods as advanced cathode materials for lithium ion batteries. N. T Wu, H. Wu*, W. Yuan, S. J. Liu, J. Y. Liao, Y. Zhang*, Journal of Materials Chemistry A 3, 13648–13652, 2015. (SCI, IF=9.931) Selected as one of Top 15 Journal of Materials Chemistry A Most Downloaded articles in June and July, 2015.
(3) Facile pH-mediated synthesis of morphologytunable MnCO₃ and their transformation to truncated octahedral spinel LiMn₂O₄ cathode materials for superior lithium storage. S. S. Huang, H. Wu*, P. H Chen, Y. Guo, B. Nie, B. J. Chen, H. Liu, Y. Zhang*, Journal of Materials Chemistry A 3, 3633-3640, 2015. (SCI, IF=9.931)
(2) Infiltrative coating of LiNi_0.5Co_0.2Mn_0.3O₂ microspheres with layer-structured LiTiO₂: Toward superior cycling performances for Li-ion batteries. Z. Y. Wang, S. S Huang, B. J. Chen, H. Wu*, Y. Zhang*, Journal of Materials Chemistry A 2, 19983-19987, 2014. (SCI, IF=9.931)
(1) Cerium fluoride coated layered oxide Li_1.2Mn_0.54Ni_0.13Co_0.13O₂ as cathode materials with improved electrochemical performance for lithium ion batteries. C. Lu, H. Wu*, Y. Zhang*, H. Liu, B. J. Chen, N. T. Wu, S. Wang,Journal of Power Sources267, 682-691, 2014. (SCI, IF=6.945) Awarded by the ESI as a TOP 1% Highly Cited Paper.