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分类:导师信息 来源:中国考研网 2016-03-07 相关院校:北京理工大学
曹敏花 教授、博导
北京理工大学化学学院,北京市海淀区中关村南大街5号,100081
电子邮件: caomh@bit.edu.cn
主要经历:
1997–2008年: 东北师范大学化学学院(副教授、教授、博导)。
2006–2007年:德国马普学会胶体与界面研究所,洪堡学者。
2009–现在: 北京理工大学化学学院教授、博士生导师。
研究方向:
1.锂离子电池和燃料电池中材料制备与电化学问题研究
2. 太阳能光解水制氢研究
3. 二氧化碳吸附、捕获及转化研究
4 . 纳米材料的合成与制备化学
代表性论文:
2013年
1.High lithium storage capacity and rate capability achieved by mesoporous Co3O4 hierarchical nanobundles, Journal of Power Sources, 2013, 247, 49-56.
2.Mesoporous Ta3N5 Microspheres Prepared from a High-Surface-Area, Microporous, Amorphous Precursor and Their Visible-Light-Driven Photocatalytic Activity, Chemistry - A European Journal, 2013, 19,12619–12623.
3.Three-Dimensional Macroporous NiCo2O4 Sheets as a Non-Noble Catalyst for Efficient Oxygen Reduction Reactions, Chemistry - A European Journal, 2013, on line.
4.Facile Microstructure Control of Mesoporous Co1.29Ni1.71O4 and the Effect of the Microstructure on Lithium-Storage Performance, Chemistry - A European Journal, 2013, 19, 10193–10200.
5.Two-step fabrication of porous γ-In2Se3 tetragonum photocatalyst for water splitting, Chem. Commun.,2013, 2013, 49, 9609-9611.
6.One-pot,low-temperature synthesis of self-doped NaTaO3 nanoclusters for visible-light-driven photocatalysis, Chem. Commun., 2013, 49, 7830-7832.
7.Facile synthesis of ultrafine carbon-coated SnO2 nanoparticles for high-performance reversible lithium storage, Journal of Power Sources, 2013, 243, 54-59.
8.Well-dispersed ultrafine Mn3O4 nanoparticles on graphene as a promising catalyst for the thermal decomposition of ammonium perchlorate” Carbon, 2013, 54, 124-132.
9.Three-Dimensional MoS2 Hierarchical Nanoarchitectures Anchored into a Carbon Layer as Graphene Analogues with Improved Lithium Ion Storage Performance, Chemistry – An Asian Journal, 2013, on line.
10.Na Li, Microwave-Assisted Synthesis of Dual-Conducting Cu2O@Cu–Graphene System with Improved Electrochemical Performance as Anode Material for Lithium Batteries,Chemistry – An Asian Journal, 2013, 8, 1960-1965.
2012年
1 Hierarchically porous germanium modified carbon materials with enhanced lithium storage performance, Nanoscale, 2012, 4 (23), 7469 - 7474
2 Review on the latest design of graphene-based inorganic materials Nanoscale, 2012, 4, 6205-6218
3 A simple approach to spherical nickel-carbon monolith as light-weight microwave absorbers, J. Mater. Chem., 2012, 22, 18426-18432.
4 Huang B, Cao MH*, Cheng BB, Sun J, Li N, Nie FD, Zhang HB, Huang H, Hu CW, Crystal Growth & Design, 2012, 12(7), 3418–3425.
5 Interconnected core–shell MoO2 microcapsules with nanorod-assembled shells as high-performance lithium-ion battery anodes, J. Mater. Chem., 2012, 22, 13334-13340.
6 Layered hybrid organic–inorganic nanobelts: synthesis and removal of trace heavy metal ions, Dalton Trans., 2012,41, 2935-2940.
7 Superparamagnetic high-surface-area Fe3O4 nanoparticles as adsorbents for arsenic removal”, Journal of Hazardous Materials”, 2012, 217-218, 439.
8 A Facile One-step Method to Produce Ni/graphene Nanocomposites as Promising Catalytic Material of Ammonium Perchlorate, CrystEngComm, 2012, 14, 428.
2011年以前
1 Graphene-wrapped WO3 nanoparticles with improved performances in electrical conductivity and gas sensing properties”, J. Mater. Chem., 2011, 21, 17167 – 17174.
2 Hierarchical Dendrite-Like Magnetic Materials of Fe3O4, γ-Fe2O3, and Fe with High Performance of Microwave Absorption”. Chem. Mater. 2011, 23, 1587–1593
3 Ligand-assisted fabrication of hollow CdSe nanospheres via Ostwald ripening and their microwave absorption properties”, Nanoscale, 2010, 2, 2619-2623.
4 Synthesis of porous CuO-CeO2 nanospheres with an enhanced low-temperature CO oxidation activity, Nanoscale, 2010, 2, 2739-2743.
5 Structural Characterization of a Nanocrystalline Inorganic−Organic Hybrid with Fiberlike Morphology and One-Dimensional Antiferromagnetic Properties”, Chem. Mater., 2009 , 21 , 3356-3369
6 A highly sensitive and fast-responding ethanol sensor based on CdIn2O4 nanocrystals synthesized by a nonaqueous sol-gel route, Chem. Mater., 2008, 20, 5781-5786.
7 Nonaqueous Synthesis of Colloidal ZnGa2O4 Nanocrystals and Their Photoluminescence Properties, Chem. Mater., 2007 , 19 , 5830-5832.
8 Single-crystal dendritic micro-pines of magnetic α-Fe2O3: Large-scale synthesis, formation mechanism, and properties, Angew. Chem. Int. Ed., 2005, 44, 4197-4201.
9 The first fluoride one-dimensional nanostructures: Microemulsion-mediated hydrothermal synthesis of BaF2 whiskers”, J. Am. Chem. Soc., 2003, 125, 11196-11197.
10 Selected-control synthesis of PbO2 and Pb3O4 single-crystalline nanorods, J. Am. Chem. Soc., 2003, 125, 4982-4983.
11 A controllable synthetic route to Cu, Cu2O, and CuO nanotubes and nanorods, Chem. Commun., 2003, 15, 1884-1885.
12 Shape-controlled synthesis of Prussian blue analogue Co3[Co(CN)6]2 nanocrystals, Chem. Commun., 2005, 17, 2241-2243.
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