上海交大等级考试2013年大一无机化学期未考试卷
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联系方式:
&&&&&&& 上海市闵行区东川路800号,上海交通大学化学化工学院,建工楼512室
邮政编码:200240
电话: 86-21-
传真:&& 86-21-
个人简介:
1968年5月出生,1998年获中国科学技术大学无机化学理学博士学位。1998年8月起分别任上海交通大学化学化工学院讲师、副教授(2000年1月)、教授(2001年8月)。2004年4月至2005年4月,德国马普固体物理研究所访问教授。主要从事功能纳米结构的化学控制合成、组装以及性能研究。探索运用优化的有机功能化的或无机模板作用以及组装方法对无机晶体和超结构实现可控合成,获得一系列单分散、形状大小可控的,以及在不同尺度上具有高度有序化的的纳米、微米无机材料以及无机/有机复合材料,并对其相关性能进行研究。已在J. Am. Chem. Soc., Chem. Comm., Euro.-A Chem. J., J. Phys. Chem., Cryst. Growth & Design, Langmuire等国际重要期刊上发表SCI收录的论文80余篇,国际学术会议论文10余篇,申请国家发明专利12项(授权8项),论文他引1000余次,其中单篇最高他引140余次。承担了国家自然科学基金、上海市教委、上海市纳米专项基金、上海高校优秀青年教师基金、国际合作等项目。2001年获上海市“曙光学者”称号;2003被聘为上海交通大学“青年教师导师”;2004年入选上海高校优秀青年教师后备人选;2006年入选教育部“新世纪优秀人才”计划。
主要研究方向:
纳米材料的结构设计、可控合成、表面修饰、性能及理论研究
(2)&&& 太阳能电池材料以及锂电池材料的合成及性能研究
(3)&& 用于可见光或紫外光催化的纳米结构催化剂材料的合成及性能研究
(4)&& 中空结构或笼状材料的制备与修饰,及在药物和催化反应等方面的应用
代表性学术论文:
145.&Xiao Y Zai J Li X Gong Y Li Bo; Han Q Qian Xuefeng, Polydopamine functionalized graphene/NiFe2O4 nanocomposite with improving Li storage performances. Nano Energy 2014, doi: 10.1016/j.nanoen..
144.&Liang Na; Zai J Xu M Zhu Qi; Wei X Qian Xuefeng, Novel Bi2S3/Bi2O2CO3 heterojunction photocatalysts with enhanced visible light responsive activity and wastewater treatment. Journal of Materials Chemistry A ), .
143.&Li Bo; Zai J Xiao Y Han Q Qian Xuefeng, SnO2/C composites fabricated by Bio-templating method from cotton and their electrochemical performances. CrystEngComm 2014, doi: 10.659A.
142.&Du W Zhu Z Wang Y Liu J Yang W Qian X Pang Huan, One-step synthesis of CoNi2S4 nanoparticles for supercapacitor electrodes. Rsc Advances ), .
141.&Du W Wang Z Zhu Z Hu S Zhu X S Pang H Qian Xuefeng, Facile synthesis and superior electrochemical performances of CoNi2S4/graphene nanocomposite suitable for supercapacitor electrodes. Journal of Materials Chemistry A 2014 doi: 10.414K.
140.&Zai J Zhu J Qi R Qian Xuefeng, Nearly monodispersed In(OH)3 hierarchical nanospheres and nanocubes: tunable ligand-assisted synthesis and their conversion into hierarchical In2O3 for gas sensing. Journal of Materials Chemistry A ), 735-745.
139.&Zai J Yu C Tao L Xu M Xiao Y Li Bo; Han Q Wang K Qian Xuefeng, Synthesis of Ni-doped NiO/RGONS nanocomposites with enhanced rate capabilities as anode materials for Li ion batteries. Crystengcomm ), .
138.&Zai J Chen H Huang C Huang J Chen F Xu M Qian Xuefeng, The fabrication of hollow cubic-like CuInS2 cages using Cu2O crystals as sacrificing template. Materials Chemistry and Physics
(1), 15-18.
137.&Yi R Zai J Dai F Gordin Mikhail L; Wang Donghai, Improved rate capability of Si–C composite anodes by boron doping for lithium-ion batteries. Electrochemistry Communications 2013, 36 (November 2013), 29-32.
136.&Xiao Y Zai J Tao L Li Bo; Han Q Yu C Qian Xuefeng, MnFe2O4-graphene nanocomposites with enhanced performances as anode materials for Li-ion batteries. Physical Chemistry Chemical Physics ), .
&Top Ten most accessed
135.&Han Q Zai J Xiao Y Li Bo; Xu M Qian Xuefeng, Direct growth of SnO2 nanorods on graphene as high capacity anode materials for lithium ion batteries. Rsc Advances ), .
134.&Du W Zhu Z Zhang X Wang D Liu D Qian X Du Jimin, RE/ZrO2 (RE = Sm, Eu) composite Oxide nano-materials: Synthesis and applications in photocatalysis. Materials Research Bulletin ), .
133.&Du W Zhao G Chang H Shi F Zhu Z Qian Xuefeng, Photocatalytic studies of Ho-Zr-O nano-composite with controllable composition and defects. Materials Characterization 8-186.
132.&Du W Wang X Li H Ma D Hou S Zhang J Qian X Pang Huan, ZrO2/Dy2O3 Solid Solution Nano-Materials: Tunable Composition, Visible light-Responsive Photocatalytic Activities and Reaction Mechanism. Journal Of The American Ceramic Society ), .
131.&Chen F Zai J Xu M Qian Xuefeng, 3D-hierarchical Cu3SnS4 Flowerlike Microspheres: Controlled Synthesis, Formation Mechanism and Photocatalytic Activity for H2 Evolution from Water. Journal of Materials Chemistry A ), .
130.&Zai J Yu C Zou Q Tao L Wang K Han Q Li Bo; Xiao Y Qian X Qi Rongrong, Magnetite modified graphene nanosheets with improved rate performance and cyclic stability for Li ion battery anodes. Rsc Advances ), .
129.&Zai J Qian X Wang K Yu C Tao L Xiao Y Chen Jiesheng, 3D-hierarchical SnS2 micro/nano-structures: controlled synthesis, formation mechanism and lithium ion storage performances. Crystengcomm ), .
Top Ten most accessed
128.&Yuan Y Du W Qian Xuefeng, ZnxGa2O3+x (0 ≤x≤ 1) solid solution nanocrystals: tunable composition and optical properties. Journal Of Materials Chemistry ), 653-659.
127.&Xu Miao.; Zai Jiantao.; Yuan Y Qian Xuefeng., Band gap-tunable (CuIn)xZn2(1-x)S2 solid solutions: Preparation and efficient photocatalytic hydrogen production from water under visible light without noble metals. Journal Of Materials Chemistry ), .
126.&Tao L Zai J Wang K Zhang H Xu M Shen J Su Y Qian Xuefeng, Co3O4 nanorods/graphene nanosheets nanocomposites for lithium ion batteries with improved reversible capacity and cycle stability. Journal Of Power Sources , 230-235.
&ISI Highly Cited Papers and Hot Papers
125.&Tao L Zai J Wang K Wan Y Zhang H Yu C Xiao Y Qian Xuefeng, 3D-hierarchical NiO-graphene nanosheet composites as anodes for lithium ion batteries with improved reversible capacity and cycle stability. Rsc Advances ), .
&Top Ten most accessed
124.&Shen Jie.; Zai Jiantao.; Yuan Yanping.; Qian Xuefeng., 3D hierarchical ZnIn2S4: The preparation and photocatalytic properties on water splitting. International Journal Of Hydrogen Energy ), .
123.&韩海波; 陈虹锦; 钱雪峰; 宰建陶, TiO_2 粉末多晶 X 射线衍射 Rietveld 全谱拟合定量相分析. 实验室研究与探索 ), 34-37.
122.&Zou Q.; Zai J. T.; Liu P.; Qian X. F., Synthesis and lithium storage properties of hollow Fe2O3/graphene nanocomposites. Chemical Journal of Chinese Universities ), 630-634.
121.&Zhao T. Y.; Zai J. T.; Xu M.; Zou Q.; Su Y. Z.; Wang K. X.; Qian X. F., Hierarchical Bi2O2CO3 microspheres with improved visible-light-driven photocatalytic activity. Crystengcomm ), .
120.&Zai Jiantao.; Wang Kaixue.; Su Yuezeng.; Qian Xuefeng.; Chen Jiesheng., High stability and superior rate capability of three-dimensional hierarchical SnS2 microspheres as anode material in lithium ion batteries. Journal Of Power Sources
119.&Yuan Y. P.; Zai J. T.; Su Y. Z.; Qian X. F., Controlled synthesis of monodispersed AgGaS2 3D nanoflowers and the shape evolution from nanoflowers to colloids. Journal Of Solid State Chemistry
118.&HAN Hai- CHEN Hong- QIAN Xue- ZAI Jian-tao, X-Ray Quantitative Analysis of TiO_2 Using Rietveld Whole Pattern Fitting Method. Research and Exploration in Laboratory 2.
117.&Gui Y.; Qian L.; Qian X., Hydrothermal synthesis of uniform rock salt (α-) MnS transformation from wurtzite (γ-) MnS. Materials Chemistry and Physics
(3), 698-703.
116.&Du W.; Deng D.; Han Z.; Xiao W.; Bian C.; Qian X., Hexagonal tin disulfide nanoplatelets: A new photocatalyst driven by solar light. Crystengcomm ), .
115.&Zhu J Qian Xuefeng, Oriented-aggregation of organic organization: Morphology-controllable synthesis, surface photovoltage spectroscopy and morphology-dependent optical property. Solid State Sciences ), .
114.&Zhu J Qian Xuefeng, From 2-D CuO nanosheets to 3-D hollow nanospheres: interface-assisted synthesis, surface photovoltage properties and photocatalytic activity. Journal Of Solid State Chemistry
113.&Qian L Zai J Chen Z Zhu J Yuan Y Qian Xuefeng, Control of the morphology and composition of yttrium fluoride via a salt-assisted hydrothermal method. Crystengcomm ), 199-206.
112.&Chen Z.; Qian L.; Zhu J.; Yuan Y.; Qian X., Controlled synthesis of hierarchical Bi2WO6 microspheres with improved visible-light-driven photocatalytic activity. Crystengcomm ), .
111.&Chen H Li M Ma Li; Liang Z Zhao H Qian Xuefeng, Improving research-oriented learning through undergraduate research. Abstracts of Papers of the American Chemical Society .
110.&Zeng Ke; Wang L Zheng S Qian Xuefeng, Self-assembly behavior of hepta(3,3,3-trifluoropropyl) polyhedral oligomeric silsesquioxane-capped poly(epsilon-caprolactone) in epoxy resin: Nanostructures and surface properties. Polymer ), 685-695.
109.&Qian L Zhu J Du W Qian Xuefeng, Solvothermal synthesis, electrochemical and photocatalytic properties of monodispersed CeO2 nanocubes. Materials Chemistry and Physics
(2-3), 835-840.
108.&Qian L.; Zhu J.; Chen Z.; Gui Y.; Gong Q.; Yuan Y.; Zai J.; Qian X., Self-assembled heavy lanthanide orthovanadate architecture with controlled dimensionality and morphology. Chemistry - A European Journal ), .
107.&Qian L.; Zai J.; Chen Z.; Zhu J.; Yuan Y.; Qian X., Control of the morphology and composition of yttrium fluoride via a salt-assisted hydrothermal method. Crystengcomm ), 199-206.
106.&Qian L Gui Y Guo S Qiang G Qian Xuefeng, Controlled synthesis of light rare-earth hydroxide nanorods via a simple solution route. Journal Of Physics and Chemistry Of Solids -4), 688-693.
105.&Qian L Diu W Gong Q Qian Xuefeng, Controlled synthesis of light rare earth phosphate nanowires via a simple solution route. Materials Chemistry and Physics
(1), 479-484.
104.&Mo Mao-S Wang D Du X Ma J Qian X Chen D Qian Yitai, Engineering of Nanotips in ZnO Submicrorods and Patterned Arrays. Crystal Growth & Design ), 797-802.
103.&Gui Yi-C Qian Li-Wu; Qian Xue-Feng, Nanometer MnO2: Hydrothermal Synthesis and Effect of Salt Modifiers on Polymorph & Morphology. Chinese Journal Of Inorganic Chemistry ), 668-673.
102.&Chen Z.; Gong Q.; Zhu J.; Yuan Y. P.; Qian L. W.; Qian X. F., Controllable synthesis of hierarchical nanostructures of CaWO4 and SrWO4 via a facile low-temperature route. Materials Research Bulletin ), 45-50.
101.&Zhu J Qian Xuefeng, Necklace-like nanostructures of cadmium hydroxide: Controlled synthesis with bubble-template and its separation property on dye. Solid State Sciences ), .
100.&Xu S Qian X Li Gang, Size and morphology-controlled Ni-2 Fe(CN)(6) center dot xH(2)O Prussian Blue analogue fabricated via a hydrothermal route. Materials Research Bulletin ), 135-140.
99.&Xie Q Chen S Yan G Xia C Guan G Qian X Cao L Liu R Ieee, Research on Mechanism of Microwave Radiating from Vacuum Arc. 2008; p 412-414.
98.&Du W.; Zhu J.; Li S.; Qian X., Ultrathin β-In2S3 nanobelts: Shape-controlled synthesis and optical and photocatalytic properties. Crystal Growth and Design ), .
97.&Shao H Qian X Huanga Baochen, Novel growth of ZnO micro-rod arrays using hydrophobically micropatterned surfaces. Materials Science In Semiconductor Processing -3), 68-76.
96.&Shao H Qian X Huang Baochen, Fabrication of single-crystal ZnO nanorods and ZnS nanotubes through a simple ultrasonic chemical solution method. Materials Letters ), .
95.&Li M Lu Q Nuli Y Qian Xuefeng, Core-shell and hollow microspheres composed of tin oxide nanocrystals as anode materials for lithium-ion batteries. Electrochemical and Solid State Letters ), K33-K37.
94.&Gong Q Qian X Zhou P Yu X Du W Xu Shaohua, In situ sacrificial template approach to the synthesis of octahedral CdS microcages. Journal of Physical Chemistry C
93.&Du W.; Qian X.; Yin J.; Gong Q., Shape- and phase-controlled synthesis of monodisperse, single-crystalline ternary chalcogenide colloids through a convenient solution synthesis strategy. Chemistry-a European Journal ), .
92.&Du W Qian X Niu X Gong Qiang, Symmetrical six-horn nickel diselenide nanostars growth from oriented attachment mechanism. Crystal Growth & Design ), .
91.&Du W Qian X Ma X Gong Q Cao H Yin He, Shape-controlled synthesis and self-assembly of hexagonal covellite (CuS) nanoplatelets. Chemistry-a European Journal ), .
90.&Cao H.; Gong Q.; Qian X.; Wang H.; Zai J.; Zhu Z., Synthesis of 3-D hierarchical dendrites of lead chalcogenides in large scale via microwave-assistant method. Crystal Growth and Design ), 425-429.
89.&Zeng W.; Wang Z.; Qian X. F.; Yin J.; Zhu Z. K., ZnO clusters in situ generated inside mesoporous silica. Materials Research Bulletin ), .
88.&Zeng W.; Qian X. F.; Yin J.; Zhu Z. K., The drug delivery system of MCM-41 materials via co-condensation synthesis. Materials Chemistry and Physics -3), 437-441.
87.&Gong Q Qian X Ma X Zhu Zikang, Large-scale fabrication of novel hierarchical 3D CaMoO4 and SrMoO4 mesocrystals via a microemulsion-mediated route. Crystal Growth & Design ), .
86.&Gong Q Qian X Cao H Du W Ma X Ma Maosong, Novel shape evolution of BaMoO4 microcrystals. Journal Of Physical Chemistry B
85.&Gong Q Li G Qian X Cao H Du W Ma Xiaodong, Synthesis of single crystal CdMoO4 octahedral microparticles via microemulsion-mediated route. Journal Of Colloid and Interface Science
(2), 408-412.
84.&Cao H. L.; Qian X. F.; Gong Q.; Du W. M.; Ma X. D.; Zhu Z. K., Shape- and size-controlled synthesis of nanometre ZnO from a simple solution route at room temperature. Nanotechnology ), .
83.&Cao H Qian X Zai J Yin J Zhu Zikang, Conversion of Cu2O nanocrystals into hollow Cu2-xSe nanocages with the preservation of morphologies. Chemical Communications 2006,& (43), .
82.&Zhang Y. B.; Shao H. F.; Qian X. F.; Zhu Z. K., Preparation of uniform cadmium sulfide spheres and their controllable morphology. Journal Of Inorganic Materials ), 575-579.
81.&Zeng W.; Qian X. F.; Zhang Y. B.; Yin J.; Zhu Z. K., Organic modified mesoporous MCM-41 through solvothermal process as drug delivery system. Materials Research Bulletin ), 766-772.
80.&Wang Z.; Qian X. F.; Li Y.; Yin J.; Zhu Z. K., Large-scale synthesis of tube-like ZnS and cable-like ZnS-ZnO arrays: Preparation through the sulfuration conversion from ZnO arrays via a simple chemical solution route. Journal Of Solid State Chemistry
79.&Shao H. F.; Zhang Y. B.; Qian X. F.; Yin J.; Zhu Z. K., Preparation of rod-shape PbSO4 nanocrystal and its phase transition to PbS. Materials Letters ), .
78.&Shao H. F.; Qian X. F.; Zhu Z. K., The synthesis of ZnS hollow nanospheres with nanoporous shell. Journal Of Solid State Chemistry
77.&Shao H. F.; Qian X. F.; Yin J.; Zhu Z. K., Controlled morphology synthesis of beta-FeOOH and the phase transition to Fe2O3. Journal Of Solid State Chemistry
76.&Li Z.; Qian X. F.; Yin J.; Zhu Z. K., Gold tubes membrane with novel morphology replicated from ZnO template. Journal Of Solid State Chemistry
75.&Li Z.; Li Y.; Qian X. F.; Yin J.; Zhu Z. K., A simple method for selective immobilization of silver nanoparticles. Applied Surface Science
(1-4), 109-116.
74.&Li Y.; Chen D. S.; Lu Q. H.; Qian X. F.; Zhu Z. K.; Yin J., Selective electroless deposition of copper on polyimide surface by microcontact printing. Applied Surface Science
(3-4), 471-476.
73.&Cao H.; Qian X.; Wang C.; Ma X.; Yin J.; Zhu Z., High symmetric 18-facet polyhedron nanocrystals of Cu7S4 with a hollow nanocage. Journal Of The American Chemical Society
72.&Zhang Y. B.; Shao H. F.; Qian X. F.; Yin J.; Zhu Z. K., A new technique for preparing macroporous inorganic composite material. Journal Of Solid State Chemistry
71.&Zhang Y. B.; Qian X. F.; Xi H. A.; Yin J.; Zhu Z. K., Preparation of polystyrene core-mesoporous silica nanoparticles shell composite. Materials Letters -2), 222-225.
70.&Zhang Y. B.; Qian X. F.; Li Z. K.; Yin J.; Zhu Z. K., Synthesis of novel mesoporous silica spheres with starburst pore canal structure. Journal Of Solid State Chemistry
(3), 844-848.
69.&Yin J. L.; Qian X. F.; Yin J.; Zhang Y. B.; Zhang J. C.; Shi M. W.; Zhou G. T., Aqueous route to prepare large-scale array of highly ordered polystyrene/aluminum hydroxide microspheres. Journal Of Solid State Chemistry
68.&Wu M. D.; Pan X. X.; Qian X. F.; Yin J.; Zhu Z. K., Solution-phase synthesis of Ag2S hollow and concave nanocubes. Inorganic Chemistry Communications ), 359-362.
67.&Wang Z.; Qian X. F.; Yin J.; Zhu Z. K., Large-scale fabrication of tower-like, flower-like, and tube-like ZnO arrays by a simple chemical solution route. Langmuir ), .
66.&Wang Z.; Qian X. F.; Yin J.; Zhu Z. K., Aqueous solution fabrication of large-scale arrayed obelisk-like zinc oxide nanorods with high efficiency. Journal Of Solid State Chemistry
65.&Wang H. L.; Ma X. D.; Qian X. F.; Yin J.; Zhu Z. K., Selective synthesis of CdWO4 short nanorods and nanofibers and their self-assembly. Journal Of Solid State Chemistry
64.&Ma W. Z.; Qian X. F.; Yin J.; Zhu Z. K., Preparation and characterization of hollow superparamagnetic Fe3O4 nanospheres. Journal Of Inorganic Materials ), .
63.&Li Y.; Wang Z.; Ma X. D.; Qian X. F.; Yin J.; Zhu Z. K., Large-scale CdX (X=S, Se) microtube arrays on glass substrate: transformation of CdOHCl microrod arrays by a simple template-sacrificing solution method. Journal Of Solid State Chemistry
62.&Li Y.; Lu Q. H.; Qian X. F.; Zhu Z. K.; Yin J., Preparation of surface bound silver nanoparticles on polyimide by surface modification method and its application on electroless metal deposition. Applied Surface Science
(1-4), 299-306.
61.&Yin J. L.; Qian X. F.; Yin J.; Shi M. W.; Zhou G. T., Preparation of ZnS/PS microspheres and ZnS hollow shells. Materials Letters -25), .
60.&Yin J. L.; Qian X. F.; Yin H.; Shi M. W.; Zhang H. C.; Zhou G. T., Preparation of polystyrene/zirconia core-shell microspheres and zirconia hollow shells. Inorganic Chemistry Communications ), 942-945.
59.&Yin J. L.; Chen H. J.; Li Z. K.; Qian X.; Yin J.; Shi M. W.; Zhou G. T., Preparation of PS/TiO2 core-shell microspheres and TiO2 hollow shells. Journal Of Materials Science ), .
58.&Yan Y. L.; Qian X. F.; Yin J.; Zhu Z. K., Novel complex-assisted photochemical route to the phase control of nanocrystalline copper selenide. Journal Of Materials Science Letters ), .
57.&Yan Y. L.; Qian X. F.; Yin J.; Zhu Z. K., Preparation and characterization of Cu2-xSe nanocrystals by trisodium citrate-assisted photochemical route. Chinese Journal Of Inorganic Chemistry ), .
56.&Yan Y. L.; Qian X. F.; Xu H. J.; Yin J.; Zhu Z. K., A novel solid-liquid route for the preparation of Cu3Se2 and Ag2Se nanocrystals. Inorganic Chemistry Communications ), 34-37.
55.&Yan Y. L.; Li Y.; Qian X. F.; Yin J.; Zhu Z. K., Preparation and characterization of CdSe nanocrystals via Na2SO3-assisted photochemical route. Materials Science and Engineering B-Solid State Materials for Advanced Technology
(2), 202-206.
54.&Xi H. G.; Wang B. H.; Zhang Y. B.; Qian X. F.; Yin J.; Zhu Z. K., Spectroscopic studies on conjugated polymers in channels: influence of polymer side-chain mesoporous length. Journal Of Physics and Chemistry Of Solids ), .
53.&Xi H. G.; Qian X. F.; Yin J.; Bian L. J.; He R.; Zhu Z. K., Photoluminescence of ZnS-PVK nanocomposites confined in ethylenediamine modified MCM-41. Materials Letters ), .
52.&Wang Bao- Xi Hong-An; Yin J Qian Xue-F Zhu Zi-Kang, Molecular orbital confinement effect of mesoporous silica of MCM-41 on conjugated polymer. Synthetic Metals
(1), 187-190.
51.&Lu H. W.; Liu S. H.; Wang X. L.; Qian X. F.; Yin J.; Zhu Z. K., Silver nanocrystals by hyperbranched polyurethane-assisted photochemical reduction of Ag+. Materials Chemistry and Physics ), 104-107.
50.&Liu S. H.; Qian X. F.; Yuan J. Y.; Yin J.; He R.; Zhu Z. K., Synthesis of monodispersed CdSe nanocrystals in poly(styrene-alt-maleic anhydride) at room temperature. Materials Research Bulletin ), .
49.&Liu S. H.; Qian X. F.; Yin J.; Xi H. A.; Huang Z. H.; Zhu Z. K., Fabrication of CdS nanocrystals embedded in copolymer matrix by an in situ simultaneous copolymerization-sulfidation technique. Materials Science and Engineering B-Solid State Materials for Advanced Technology ), 99-103.
48.&Liu S. H.; Qian X. F.; Yin J.; Ma X. D.; Yuan J. Y.; Zhu Z. K., Preparation and characterization of polymer-capped CdS nanocrystals. Journal Of Physics and Chemistry Of Solids ), 455-458.
47.&Liu S. H.; Qian X. F.; Yin J.; Lu H. W.; Zhu Z. K., Room temperature synthesis of PbS nanocrystals with different morphologies in PEO-PPO-PEO triblock copolymers. Materials Science and Engineering B-Solid State Materials for Advanced Technology
(3), 314-317.
46.&Liu S. H.; Lu H. W.; Qian X. F.; Yin J.; Zhu Z. K., Synthesis of beltlike CdS nanocrystals via solvothermal route. Journal Of Solid State Chemistry
(2), 480-484.
45.&Li Z. K.; Xi H. A.; Qian X. F.; Yin J.; Zhu Z. K., Morphological control of mesoporous silica in a base condition. Journal Of Inorganic Materials ), .
44.&He R.; Qian X. F.; Yin J.; Zhu Z. K.; Wang H. L., Formation of silver nanoprisms and their optical properties. Chemical Journal Of Chinese Universities-chinese ), .
43.&He R.; Qian X. F.; Yin J.; Zhu Z. K., Preparation of Bi2S3 nanowhiskers and their morphologies. Journal Of Crystal Growth
(4), 505-510.
42.&He R.; Qian X. F.; Yin J.; Zhu Z. K., Formation of silver dendrites under microwave irradiation. Chemical Physics Letters
(3-4), 454-458.
41.&He R.; Qian X. F.; Yin J.; Xi H. A.; Bian L. J.; Zhu Z. K., Formation of monodispersed PVP-capped ZnS and CdS nanocrystals under microwave irradiation. Colloids and Surfaces A-physicochemical and Engineering Aspects
(1-3), 151-157.
40.&He R.; Qian X. F.; Yin J.; Bian L. J.; Xi H. A.; Zhu Z. K., In situ synthesis of CdS/PVK nanocomposites and their optical properties. Materials Letters ), .
39.&Bian L. J.; Qian X. F.; Yin J.; Zhu Z. K.; Lu Q. H., Preparation and luminescence properties of the PMMA/SiO2/EuL3 center dot 2H(2)O hybrids by a sol-gel method. Materials Science and Engineering B-Solid State Materials for Advanced Technology
(1), 53-58.
38.&Xi H. G.; Zhang Y. B.; Li Z. K.; Qian X. F.; Yin J.; Zhu Z. K., Photophysical properties of poly(N-vinylcarbazole) in the meso-channels of zeolite MCM-41. Journal Of Materials Science Letters ), .
37.&Ma X. D.; Qian X. F.; Yin J.; Zhu Z. K., Preparation and characterization of polyvinyl alcohol-selenide nanocomposites at room temperature. Journal Of Materials Chemistry ), 663-666.
36.&Ma X. D.; Qian X. F.; Yin J.; Xi H. A.; Zhu Z. K., Preparation and characterization of polyvinyl alcohol-capped CdSe nanoparticles at room temperature. Journal Of Colloid and Interface Science
(1), 77-81.
35.&Liu S. H.; Qian X. F.; Yin J.; Hong L.; Wang X. L.; Zhu Z. K., Synthesis and characterization of Ag2S nanocrystals in hyperbranched polyurethane at room temperature. Journal Of Solid State Chemistry
(1), 259-262.
34.&Li L.; Lu Q. H.; Yin J.; Qian X. F.; Wang W. K.; Zhu Z. K.; Wang Z. G., Photosensitive polyimide (PSPI) materials containing inorganic nano particles (I)PSPL/TiO2 hybrid materials by sol-gel process. Materials Chemistry and Physics ), 210-213.
33.&He R.; Qian X. F.; Yin J.; Zhu Z. K., Preparation of polychrome silver nanoparticles in different solvents. Journal Of Materials Chemistry ), .
32.&Bian L. J.; Xi H. A.; Qian X. F.; Yin J.; Zhu Z. K.; Lu Q. H., Synthesis and luminescence property of rare earth complex nanoparticles dispersed within pores of modified mesoporous silica. Materials Research Bulletin ), .
31.&Bian L. J.; Qian X. F.; Yin J.; Zhu Z. K.; Lu Q. H., EU3+ complex/polyimide nanocomposites: Improvement in mechanical and thermal properties. Journal Of Applied Polymer Science ), .
30.&Bian L. J.; Qian X. F.; Yin J.; Lu Q. H.; Liu L.; Zhu Z. K., Preparation and properties of rare earth oxide/polyimide hybrids. Polymer Testing ), 841-845.
29.&Sun Y. Y.; Qian X. F.; Yin J.; Huang J. C.; Ma X. D.; Zhu Z. K., Preparation and characterization of nanocrystalline PbSe in poly(acrylic acid-co-styrene). Journal Of Materials Research ), .
28.&Qian X. F.; Yin J.; Yang Y. F.; Lu Q. H.; Zhu Z. K.; Lu J., Polymer-inorganic nanocomposites prepared by hydrothermal method: Preparation and characterization of PVA-transition-metal sulfides. Journal Of Applied Polymer Science ), .
27.&Qian X. F.; Yin J.; Huang J. C.; Yang Y. F.; Guo X. X.; Zhu Z. K., The preparation and characterization of PVA/Ag2S nanocomposite. Materials Chemistry and Physics -3), 95-97.
26.&Qian X. F.; Yin J.; Feng S.; Liu S. H.; Zhu Z. K., Preparation and characterization of polyvinylpyrrolidone films containing silver sulfide nanoparticles. Journal Of Materials Chemistry ), .
25.&Qian X. F.; Xie Y.; Qian Y. T., Solventothermal synthesis and morphological control of nanocrystalline FeS2. Materials Letters ), 109-111.
24.&Huang J. C.; Zhu Z. K.; Yin J.; Zhang D. M.; Qian X. F., Preparation and properties of rigid-rod polyimide/silica hybrid materials by sol-gel process. Journal Of Applied Polymer Science ), 794-800.
23.&Huang J. C.; Zhu Z. K.; Yin J.; Qian X. F.; Sun Y. Y., Poly(etherimide)/montmorillonite nanocomposites prepared by melt intercalation: morphology, solvent resistance properties and thermal properties. Polymer ), 873-877.
22.&Huang J. C.; Zhu Z. K.; Ma X. D.; Qian X. F.; Yin J., Preparation and properties of montmorillonite/organo-soluble polyimide hybrid materials prepared by a one-step approach. Journal Of Materials Science ), 871-877.
21.&Huang J. C.; Qian X. F.; Yin J.; Zhu Z. K.; Xu H. J., Preparation of soluble polyimide-silver nanocomposites by a convenient ultraviolet irradiation technique. Materials Chemistry and Physics -3), 172-175.
20.&Qian X. F.; Yin J.; Guo X. X.; Yang Y. F.; Zhu Z. K.; Lu J., Polymer-inorganic nanocomposites prepared by hydrothermal method: PVA/ZnS, PVA/CdS, preparation and characterization. Journal Of Materials Science Letters ), .
19.&Qian X. F.; Li Y. D.; Xie Y.; Qian Y. T., The synthesis and morphological control of nanocrystalline pyrite nickel disulfide and cobalt disulfide. Materials Chemistry and Physics ), 97-99.
18.&Huang J. C.; Zhu Z. K.; Qian X. F.; Yin J., MnO2/polyimide hybrid materials prepared with a convenient ultraviolet irradiation technique. Materials Research Bulletin -15), .
17.&Qian X. F., Zhang X. M., Wang C., Wang W. Z., Xie Y., Qian Y. T., Solvothermal preparation of nanocrystalline tin sulfide, J. Phys. & Chem. Solids -417
16.&Qian X. F., Zhang X. M., Wang C., Xie Y., Qian Y. T., The preparation and phase transformation of nanocrystalline cobalt sulfides via a toluene thermal process, Inorg. Chem., 1-2623
15.&Qian X. F., Zhang X. M., Wang C., Tang K. B., Xie Y., Qian Y. T., Benzene-thermal preparation of nanocrystalline chromium nitride, Mater. Res. Bull., -436
14.&Qian X. F., Zhang X. M., Wang C., Wang W. Z., Xie Y., Qian Y. T., The preparation and the phase transformation of nanocrystalline iron sulfides via toluene-thermal process, Mater. Sci. & Eng. B -173
13.&Wang C., Qian X. F., Zhang X. M., Zhang W. X., Xie Y., Qian Y. T., A new chemical route to prepare nanocrystalline cobalt monoarsenide, Mater. Res. Bull., 29-1133.
12.&Wang C., Qian X. F., Zhang X. M., Xie Y., Qian Y. T., Preparation of ZnSe films through chemical solution reduction process, Mater. Res. Bull., 7-1641
11.&Zhang X. M., Wang C., Qian X. F., Xie Y., Qian Y. T., Synthesis of nanocrystalline iron monoarsenide via a reduction recombination pathway, J. Solid State Chem., -239
10.&Zhan J. H., Zhang Z. D., Qian X. F., Wang C., Xie Y., Qian Y. T., Synthesis of MoSe2 nanocrystallites by a solvothermal conversion from MoO3, Mater. Res. Bull., -501
9.&Wang C., Zhang W. X., Qian X. F., Zhang X. M., Xie Y., Qian Y. T., An aqueous approach to ZnSe and CdSe semiconductor nanocrystals, Mater. Chem. Phys., -102
8.&Wang C., Zhang W. X , Qian X. F., Zhang X. M., Xie Y., Qian Y. T., A room temperature chemical route to nanocrystalline PbS semiconductor, Mater. Lett., -258
7.&Wang C., Zhang X. M., Qian X. F., Xie Y., Qian Y. T., A low temperature route to nanocrystalline Co9S8, J. Phys. Chem. Solidi., 5-2008
6.&Qian X. F., Zhang X. M., Wang C., Wang W. Z., Qian Y. T., A new way to prepare nanocrystalline dinickel phosphide, Mater. Res. Bull., -672
5.&Qian X. F., Zhang X. M., Wang C., Tang K. B., Xie Y., Qian Y. T., Solvent-thermal preparation of nanocrystalline pyrite cobalt disulfide, J. Alloy. Compd., -112
4.&Zhan J. H., Zhang Z. D., Qian X. F., Wang C., Xie Y., Qian Y. T., Solvothermal synthesis of nanocrystalline MoS2 from MoO3 and elemental sulfur, J. Solid State Chem., -273
3.&Wang C., Zhang X. M., Qian X. F., Wang W. Z., Qian Y. T., Ultrafine powder of silver sulfide semiconductor prepared in alcohol solution, Mater. Res. Bull., 3-1086
2.&Wang C., Zhang X. M., Qian X. F., Xie Y., Wang W. Z., Qian Y. T., Preparation of nanocrystalline nickel powders through hydrothermal-reduction method, Mater. Res. Bull., 7-1751
1.&Qian X. F., Xie Y., Qian Y. T., Zhang X. M., Wang W. Z., Yang L., Organo-thermal preparation of nanocrystalline cobalt phosphides, Mater. Sci. & Eng. B 5-137.
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&&&&&&& 上海市闵行区东川路800号,上海交通大学化学化工学院,建工楼512室
邮政编码:200240
电话: 86-21-
传真:&& 86-21-
个人简介:
1968年5月出生,1998年获中国科学技术大学无机化学理学博士学位。1998年8月起分别任上海交通大学化学化工学院讲师、副教授(2000年1月)、教授(2001年8月)。2004年4月至2005年4月,德国马普固体物理研究所访问教授。主要从事功能纳米结构的化学控制合成、组装以及性能研究。探索运用优化的有机功能化的或无机模板作用以及组装方法对无机晶体和超结构实现可控合成,获得一系列单分散、形状大小可控的,以及在不同尺度上具有高度有序化的的纳米、微米无机材料以及无机/有机复合材料,并对其相关性能进行研究。已在J. Am. Chem. Soc., Chem. Comm., Euro.-A Chem. J., J. Phys. Chem., Cryst. Growth & Design, Langmuire等国际重要期刊上发表SCI收录的论文80余篇,国际学术会议论文10余篇,申请国家发明专利12项(授权8项),论文他引1000余次,其中单篇最高他引140余次。承担了国家自然科学基金、上海市教委、上海市纳米专项基金、上海高校优秀青年教师基金、国际合作等项目。2001年获上海市“曙光学者”称号;2003被聘为上海交通大学“青年教师导师”;2004年入选上海高校优秀青年教师后备人选;2006年入选教育部“新世纪优秀人才”计划。
主要研究方向:
纳米材料的结构设计、可控合成、表面修饰、性能及理论研究
(2)&&& 太阳能电池材料以及锂电池材料的合成及性能研究
(3)&& 用于可见光或紫外光催化的纳米结构催化剂材料的合成及性能研究
(4)&& 中空结构或笼状材料的制备与修饰,及在药物和催化反应等方面的应用
代表性学术论文:
145.&Xiao Y Zai J Li X Gong Y Li Bo; Han Q Qian Xuefeng, Polydopamine functionalized graphene/NiFe2O4 nanocomposite with improving Li storage performances. Nano Energy 2014, doi: 10.1016/j.nanoen..
144.&Liang Na; Zai J Xu M Zhu Qi; Wei X Qian Xuefeng, Novel Bi2S3/Bi2O2CO3 heterojunction photocatalysts with enhanced visible light responsive activity and wastewater treatment. Journal of Materials Chemistry A ), .
143.&Li Bo; Zai J Xiao Y Han Q Qian Xuefeng, SnO2/C composites fabricated by Bio-templating method from cotton and their electrochemical performances. CrystEngComm 2014, doi: 10.659A.
142.&Du W Zhu Z Wang Y Liu J Yang W Qian X Pang Huan, One-step synthesis of CoNi2S4 nanoparticles for supercapacitor electrodes. Rsc Advances ), .
141.&Du W Wang Z Zhu Z Hu S Zhu X S Pang H Qian Xuefeng, Facile synthesis and superior electrochemical performances of CoNi2S4/graphene nanocomposite suitable for supercapacitor electrodes. Journal of Materials Chemistry A 2014 doi: 10.414K.
140.&Zai J Zhu J Qi R Qian Xuefeng, Nearly monodispersed In(OH)3 hierarchical nanospheres and nanocubes: tunable ligand-assisted synthesis and their conversion into hierarchical In2O3 for gas sensing. Journal of Materials Chemistry A ), 735-745.
139.&Zai J Yu C Tao L Xu M Xiao Y Li Bo; Han Q Wang K Qian Xuefeng, Synthesis of Ni-doped NiO/RGONS nanocomposites with enhanced rate capabilities as anode materials for Li ion batteries. Crystengcomm ), .
138.&Zai J Chen H Huang C Huang J Chen F Xu M Qian Xuefeng, The fabrication of hollow cubic-like CuInS2 cages using Cu2O crystals as sacrificing template. Materials Chemistry and Physics
(1), 15-18.
137.&Yi R Zai J Dai F Gordin Mikhail L; Wang Donghai, Improved rate capability of Si–C composite anodes by boron doping for lithium-ion batteries. Electrochemistry Communications 2013, 36 (November 2013), 29-32.
136.&Xiao Y Zai J Tao L Li Bo; Han Q Yu C Qian Xuefeng, MnFe2O4-graphene nanocomposites with enhanced performances as anode materials for Li-ion batteries. Physical Chemistry Chemical Physics ), .
&Top Ten most accessed
135.&Han Q Zai J Xiao Y Li Bo; Xu M Qian Xuefeng, Direct growth of SnO2 nanorods on graphene as high capacity anode materials for lithium ion batteries. Rsc Advances ), .
134.&Du W Zhu Z Zhang X Wang D Liu D Qian X Du Jimin, RE/ZrO2 (RE = Sm, Eu) composite Oxide nano-materials: Synthesis and applications in photocatalysis. Materials Research Bulletin ), .
133.&Du W Zhao G Chang H Shi F Zhu Z Qian Xuefeng, Photocatalytic studies of Ho-Zr-O nano-composite with controllable composition and defects. Materials Characterization 8-186.
132.&Du W Wang X Li H Ma D Hou S Zhang J Qian X Pang Huan, ZrO2/Dy2O3 Solid Solution Nano-Materials: Tunable Composition, Visible light-Responsive Photocatalytic Activities and Reaction Mechanism. Journal Of The American Ceramic Society ), .
131.&Chen F Zai J Xu M Qian Xuefeng, 3D-hierarchical Cu3SnS4 Flowerlike Microspheres: Controlled Synthesis, Formation Mechanism and Photocatalytic Activity for H2 Evolution from Water. Journal of Materials Chemistry A ), .
130.&Zai J Yu C Zou Q Tao L Wang K Han Q Li Bo; Xiao Y Qian X Qi Rongrong, Magnetite modified graphene nanosheets with improved rate performance and cyclic stability for Li ion battery anodes. Rsc Advances ), .
129.&Zai J Qian X Wang K Yu C Tao L Xiao Y Chen Jiesheng, 3D-hierarchical SnS2 micro/nano-structures: controlled synthesis, formation mechanism and lithium ion storage performances. Crystengcomm ), .
Top Ten most accessed
128.&Yuan Y Du W Qian Xuefeng, ZnxGa2O3+x (0 ≤x≤ 1) solid solution nanocrystals: tunable composition and optical properties. Journal Of Materials Chemistry ), 653-659.
127.&Xu Miao.; Zai Jiantao.; Yuan Y Qian Xuefeng., Band gap-tunable (CuIn)xZn2(1-x)S2 solid solutions: Preparation and efficient photocatalytic hydrogen production from water under visible light without noble metals. Journal Of Materials Chemistry ), .
126.&Tao L Zai J Wang K Zhang H Xu M Shen J Su Y Qian Xuefeng, Co3O4 nanorods/graphene nanosheets nanocomposites for lithium ion batteries with improved reversible capacity and cycle stability. Journal Of Power Sources , 230-235.
&ISI Highly Cited Papers and Hot Papers
125.&Tao L Zai J Wang K Wan Y Zhang H Yu C Xiao Y Qian Xuefeng, 3D-hierarchical NiO-graphene nanosheet composites as anodes for lithium ion batteries with improved reversible capacity and cycle stability. Rsc Advances ), .
&Top Ten most accessed
124.&Shen Jie.; Zai Jiantao.; Yuan Yanping.; Qian Xuefeng., 3D hierarchical ZnIn2S4: The preparation and photocatalytic properties on water splitting. International Journal Of Hydrogen Energy ), .
123.&韩海波; 陈虹锦; 钱雪峰; 宰建陶, TiO_2 粉末多晶 X 射线衍射 Rietveld 全谱拟合定量相分析. 实验室研究与探索 ), 34-37.
122.&Zou Q.; Zai J. T.; Liu P.; Qian X. F., Synthesis and lithium storage properties of hollow Fe2O3/graphene nanocomposites. Chemical Journal of Chinese Universities ), 630-634.
121.&Zhao T. Y.; Zai J. T.; Xu M.; Zou Q.; Su Y. Z.; Wang K. X.; Qian X. F., Hierarchical Bi2O2CO3 microspheres with improved visible-light-driven photocatalytic activity. Crystengcomm ), .
120.&Zai Jiantao.; Wang Kaixue.; Su Yuezeng.; Qian Xuefeng.; Chen Jiesheng., High stability and superior rate capability of three-dimensional hierarchical SnS2 microspheres as anode material in lithium ion batteries. Journal Of Power Sources
119.&Yuan Y. P.; Zai J. T.; Su Y. Z.; Qian X. F., Controlled synthesis of monodispersed AgGaS2 3D nanoflowers and the shape evolution from nanoflowers to colloids. Journal Of Solid State Chemistry
118.&HAN Hai- CHEN Hong- QIAN Xue- ZAI Jian-tao, X-Ray Quantitative Analysis of TiO_2 Using Rietveld Whole Pattern Fitting Method. Research and Exploration in Laboratory 2.
117.&Gui Y.; Qian L.; Qian X., Hydrothermal synthesis of uniform rock salt (α-) MnS transformation from wurtzite (γ-) MnS. Materials Chemistry and Physics
(3), 698-703.
116.&Du W.; Deng D.; Han Z.; Xiao W.; Bian C.; Qian X., Hexagonal tin disulfide nanoplatelets: A new photocatalyst driven by solar light. Crystengcomm ), .
115.&Zhu J Qian Xuefeng, Oriented-aggregation of organic organization: Morphology-controllable synthesis, surface photovoltage spectroscopy and morphology-dependent optical property. Solid State Sciences ), .
114.&Zhu J Qian Xuefeng, From 2-D CuO nanosheets to 3-D hollow nanospheres: interface-assisted synthesis, surface photovoltage properties and photocatalytic activity. Journal Of Solid State Chemistry
113.&Qian L Zai J Chen Z Zhu J Yuan Y Qian Xuefeng, Control of the morphology and composition of yttrium fluoride via a salt-assisted hydrothermal method. Crystengcomm ), 199-206.
112.&Chen Z.; Qian L.; Zhu J.; Yuan Y.; Qian X., Controlled synthesis of hierarchical Bi2WO6 microspheres with improved visible-light-driven photocatalytic activity. Crystengcomm ), .
111.&Chen H Li M Ma Li; Liang Z Zhao H Qian Xuefeng, Improving research-oriented learning through undergraduate research. Abstracts of Papers of the American Chemical Society .
110.&Zeng Ke; Wang L Zheng S Qian Xuefeng, Self-assembly behavior of hepta(3,3,3-trifluoropropyl) polyhedral oligomeric silsesquioxane-capped poly(epsilon-caprolactone) in epoxy resin: Nanostructures and surface properties. Polymer ), 685-695.
109.&Qian L Zhu J Du W Qian Xuefeng, Solvothermal synthesis, electrochemical and photocatalytic properties of monodispersed CeO2 nanocubes. Materials Chemistry and Physics
(2-3), 835-840.
108.&Qian L.; Zhu J.; Chen Z.; Gui Y.; Gong Q.; Yuan Y.; Zai J.; Qian X., Self-assembled heavy lanthanide orthovanadate architecture with controlled dimensionality and morphology. Chemistry - A European Journal ), .
107.&Qian L.; Zai J.; Chen Z.; Zhu J.; Yuan Y.; Qian X., Control of the morphology and composition of yttrium fluoride via a salt-assisted hydrothermal method. Crystengcomm ), 199-206.
106.&Qian L Gui Y Guo S Qiang G Qian Xuefeng, Controlled synthesis of light rare-earth hydroxide nanorods via a simple solution route. Journal Of Physics and Chemistry Of Solids -4), 688-693.
105.&Qian L Diu W Gong Q Qian Xuefeng, Controlled synthesis of light rare earth phosphate nanowires via a simple solution route. Materials Chemistry and Physics
(1), 479-484.
104.&Mo Mao-S Wang D Du X Ma J Qian X Chen D Qian Yitai, Engineering of Nanotips in ZnO Submicrorods and Patterned Arrays. Crystal Growth & Design ), 797-802.
103.&Gui Yi-C Qian Li-Wu; Qian Xue-Feng, Nanometer MnO2: Hydrothermal Synthesis and Effect of Salt Modifiers on Polymorph & Morphology. Chinese Journal Of Inorganic Chemistry ), 668-673.
102.&Chen Z.; Gong Q.; Zhu J.; Yuan Y. P.; Qian L. W.; Qian X. F., Controllable synthesis of hierarchical nanostructures of CaWO4 and SrWO4 via a facile low-temperature route. Materials Research Bulletin ), 45-50.
101.&Zhu J Qian Xuefeng, Necklace-like nanostructures of cadmium hydroxide: Controlled synthesis with bubble-template and its separation property on dye. Solid State Sciences ), .
100.&Xu S Qian X Li Gang, Size and morphology-controlled Ni-2 Fe(CN)(6) center dot xH(2)O Prussian Blue analogue fabricated via a hydrothermal route. Materials Research Bulletin ), 135-140.
99.&Xie Q Chen S Yan G Xia C Guan G Qian X Cao L Liu R Ieee, Research on Mechanism of Microwave Radiating from Vacuum Arc. 2008; p 412-414.
98.&Du W.; Zhu J.; Li S.; Qian X., Ultrathin β-In2S3 nanobelts: Shape-controlled synthesis and optical and photocatalytic properties. Crystal Growth and Design ), .
97.&Shao H Qian X Huanga Baochen, Novel growth of ZnO micro-rod arrays using hydrophobically micropatterned surfaces. Materials Science In Semiconductor Processing -3), 68-76.
96.&Shao H Qian X Huang Baochen, Fabrication of single-crystal ZnO nanorods and ZnS nanotubes through a simple ultrasonic chemical solution method. Materials Letters ), .
95.&Li M Lu Q Nuli Y Qian Xuefeng, Core-shell and hollow microspheres composed of tin oxide nanocrystals as anode materials for lithium-ion batteries. Electrochemical and Solid State Letters ), K33-K37.
94.&Gong Q Qian X Zhou P Yu X Du W Xu Shaohua, In situ sacrificial template approach to the synthesis of octahedral CdS microcages. Journal of Physical Chemistry C
93.&Du W.; Qian X.; Yin J.; Gong Q., Shape- and phase-controlled synthesis of monodisperse, single-crystalline ternary chalcogenide colloids through a convenient solution synthesis strategy. Chemistry-a European Journal ), .
92.&Du W Qian X Niu X Gong Qiang, Symmetrical six-horn nickel diselenide nanostars growth from oriented attachment mechanism. Crystal Growth & Design ), .
91.&Du W Qian X Ma X Gong Q Cao H Yin He, Shape-controlled synthesis and self-assembly of hexagonal covellite (CuS) nanoplatelets. Chemistry-a European Journal ), .
90.&Cao H.; Gong Q.; Qian X.; Wang H.; Zai J.; Zhu Z., Synthesis of 3-D hierarchical dendrites of lead chalcogenides in large scale via microwave-assistant method. Crystal Growth and Design ), 425-429.
89.&Zeng W.; Wang Z.; Qian X. F.; Yin J.; Zhu Z. K., ZnO clusters in situ generated inside mesoporous silica. Materials Research Bulletin ), .
88.&Zeng W.; Qian X. F.; Yin J.; Zhu Z. K., The drug delivery system of MCM-41 materials via co-condensation synthesis. Materials Chemistry and Physics -3), 437-441.
87.&Gong Q Qian X Ma X Zhu Zikang, Large-scale fabrication of novel hierarchical 3D CaMoO4 and SrMoO4 mesocrystals via a microemulsion-mediated route. Crystal Growth & Design ), .
86.&Gong Q Qian X Cao H Du W Ma X Ma Maosong, Novel shape evolution of BaMoO4 microcrystals. Journal Of Physical Chemistry B
85.&Gong Q Li G Qian X Cao H Du W Ma Xiaodong, Synthesis of single crystal CdMoO4 octahedral microparticles via microemulsion-mediated route. Journal Of Colloid and Interface Science
(2), 408-412.
84.&Cao H. L.; Qian X. F.; Gong Q.; Du W. M.; Ma X. D.; Zhu Z. K., Shape- and size-controlled synthesis of nanometre ZnO from a simple solution route at room temperature. Nanotechnology ), .
83.&Cao H Qian X Zai J Yin J Zhu Zikang, Conversion of Cu2O nanocrystals into hollow Cu2-xSe nanocages with the preservation of morphologies. Chemical Communications 2006,& (43), .
82.&Zhang Y. B.; Shao H. F.; Qian X. F.; Zhu Z. K., Preparation of uniform cadmium sulfide spheres and their controllable morphology. Journal Of Inorganic Materials ), 575-579.
81.&Zeng W.; Qian X. F.; Zhang Y. B.; Yin J.; Zhu Z. K., Organic modified mesoporous MCM-41 through solvothermal process as drug delivery system. Materials Research Bulletin ), 766-772.
80.&Wang Z.; Qian X. F.; Li Y.; Yin J.; Zhu Z. K., Large-scale synthesis of tube-like ZnS and cable-like ZnS-ZnO arrays: Preparation through the sulfuration conversion from ZnO arrays via a simple chemical solution route. Journal Of Solid State Chemistry
79.&Shao H. F.; Zhang Y. B.; Qian X. F.; Yin J.; Zhu Z. K., Preparation of rod-shape PbSO4 nanocrystal and its phase transition to PbS. Materials Letters ), .
78.&Shao H. F.; Qian X. F.; Zhu Z. K., The synthesis of ZnS hollow nanospheres with nanoporous shell. Journal Of Solid State Chemistry
77.&Shao H. F.; Qian X. F.; Yin J.; Zhu Z. K., Controlled morphology synthesis of beta-FeOOH and the phase transition to Fe2O3. Journal Of Solid State Chemistry
76.&Li Z.; Qian X. F.; Yin J.; Zhu Z. K., Gold tubes membrane with novel morphology replicated from ZnO template. Journal Of Solid State Chemistry
75.&Li Z.; Li Y.; Qian X. F.; Yin J.; Zhu Z. K., A simple method for selective immobilization of silver nanoparticles. Applied Surface Science
(1-4), 109-116.
74.&Li Y.; Chen D. S.; Lu Q. H.; Qian X. F.; Zhu Z. K.; Yin J., Selective electroless deposition of copper on polyimide surface by microcontact printing. Applied Surface Science
(3-4), 471-476.
73.&Cao H.; Qian X.; Wang C.; Ma X.; Yin J.; Zhu Z., High symmetric 18-facet polyhedron nanocrystals of Cu7S4 with a hollow nanocage. Journal Of The American Chemical Society
72.&Zhang Y. B.; Shao H. F.; Qian X. F.; Yin J.; Zhu Z. K., A new technique for preparing macroporous inorganic composite material. Journal Of Solid State Chemistry
71.&Zhang Y. B.; Qian X. F.; Xi H. A.; Yin J.; Zhu Z. K., Preparation of polystyrene core-mesoporous silica nanoparticles shell composite. Materials Letters -2), 222-225.
70.&Zhang Y. B.; Qian X. F.; Li Z. K.; Yin J.; Zhu Z. K., Synthesis of novel mesoporous silica spheres with starburst pore canal structure. Journal Of Solid State Chemistry
(3), 844-848.
69.&Yin J. L.; Qian X. F.; Yin J.; Zhang Y. B.; Zhang J. C.; Shi M. W.; Zhou G. T., Aqueous route to prepare large-scale array of highly ordered polystyrene/aluminum hydroxide microspheres. Journal Of Solid State Chemistry
68.&Wu M. D.; Pan X. X.; Qian X. F.; Yin J.; Zhu Z. K., Solution-phase synthesis of Ag2S hollow and concave nanocubes. Inorganic Chemistry Communications ), 359-362.
67.&Wang Z.; Qian X. F.; Yin J.; Zhu Z. K., Large-scale fabrication of tower-like, flower-like, and tube-like ZnO arrays by a simple chemical solution route. Langmuir ), .
66.&Wang Z.; Qian X. F.; Yin J.; Zhu Z. K., Aqueous solution fabrication of large-scale arrayed obelisk-like zinc oxide nanorods with high efficiency. Journal Of Solid State Chemistry
65.&Wang H. L.; Ma X. D.; Qian X. F.; Yin J.; Zhu Z. K., Selective synthesis of CdWO4 short nanorods and nanofibers and their self-assembly. Journal Of Solid State Chemistry
64.&Ma W. Z.; Qian X. F.; Yin J.; Zhu Z. K., Preparation and characterization of hollow superparamagnetic Fe3O4 nanospheres. Journal Of Inorganic Materials ), .
63.&Li Y.; Wang Z.; Ma X. D.; Qian X. F.; Yin J.; Zhu Z. K., Large-scale CdX (X=S, Se) microtube arrays on glass substrate: transformation of CdOHCl microrod arrays by a simple template-sacrificing solution method. Journal Of Solid State Chemistry
62.&Li Y.; Lu Q. H.; Qian X. F.; Zhu Z. K.; Yin J., Preparation of surface bound silver nanoparticles on polyimide by surface modification method and its application on electroless metal deposition. Applied Surface Science
(1-4), 299-306.
61.&Yin J. L.; Qian X. F.; Yin J.; Shi M. W.; Zhou G. T., Preparation of ZnS/PS microspheres and ZnS hollow shells. Materials Letters -25), .
60.&Yin J. L.; Qian X. F.; Yin H.; Shi M. W.; Zhang H. C.; Zhou G. T., Preparation of polystyrene/zirconia core-shell microspheres and zirconia hollow shells. Inorganic Chemistry Communications ), 942-945.
59.&Yin J. L.; Chen H. J.; Li Z. K.; Qian X.; Yin J.; Shi M. W.; Zhou G. T., Preparation of PS/TiO2 core-shell microspheres and TiO2 hollow shells. Journal Of Materials Science ), .
58.&Yan Y. L.; Qian X. F.; Yin J.; Zhu Z. K., Novel complex-assisted photochemical route to the phase control of nanocrystalline copper selenide. Journal Of Materials Science Letters ), .
57.&Yan Y. L.; Qian X. F.; Yin J.; Zhu Z. K., Preparation and characterization of Cu2-xSe nanocrystals by trisodium citrate-assisted photochemical route. Chinese Journal Of Inorganic Chemistry ), .
56.&Yan Y. L.; Qian X. F.; Xu H. J.; Yin J.; Zhu Z. K., A novel solid-liquid route for the preparation of Cu3Se2 and Ag2Se nanocrystals. Inorganic Chemistry Communications ), 34-37.
55.&Yan Y. L.; Li Y.; Qian X. F.; Yin J.; Zhu Z. K., Preparation and characterization of CdSe nanocrystals via Na2SO3-assisted photochemical route. Materials Science and Engineering B-Solid State Materials for Advanced Technology
(2), 202-206.
54.&Xi H. G.; Wang B. H.; Zhang Y. B.; Qian X. F.; Yin J.; Zhu Z. K., Spectroscopic studies on conjugated polymers in channels: influence of polymer side-chain mesoporous length. Journal Of Physics and Chemistry Of Solids ), .
53.&Xi H. G.; Qian X. F.; Yin J.; Bian L. J.; He R.; Zhu Z. K., Photoluminescence of ZnS-PVK nanocomposites confined in ethylenediamine modified MCM-41. Materials Letters ), .
52.&Wang Bao- Xi Hong-An; Yin J Qian Xue-F Zhu Zi-Kang, Molecular orbital confinement effect of mesoporous silica of MCM-41 on conjugated polymer. Synthetic Metals
(1), 187-190.
51.&Lu H. W.; Liu S. H.; Wang X. L.; Qian X. F.; Yin J.; Zhu Z. K., Silver nanocrystals by hyperbranched polyurethane-assisted photochemical reduction of Ag+. Materials Chemistry and Physics ), 104-107.
50.&Liu S. H.; Qian X. F.; Yuan J. Y.; Yin J.; He R.; Zhu Z. K., Synthesis of monodispersed CdSe nanocrystals in poly(styrene-alt-maleic anhydride) at room temperature. Materials Research Bulletin ), .
49.&Liu S. H.; Qian X. F.; Yin J.; Xi H. A.; Huang Z. H.; Zhu Z. K., Fabrication of CdS nanocrystals embedded in copolymer matrix by an in situ simultaneous copolymerization-sulfidation technique. Materials Science and Engineering B-Solid State Materials for Advanced Technology ), 99-103.
48.&Liu S. H.; Qian X. F.; Yin J.; Ma X. D.; Yuan J. Y.; Zhu Z. K., Preparation and characterization of polymer-capped CdS nanocrystals. Journal Of Physics and Chemistry Of Solids ), 455-458.
47.&Liu S. H.; Qian X. F.; Yin J.; Lu H. W.; Zhu Z. K., Room temperature synthesis of PbS nanocrystals with different morphologies in PEO-PPO-PEO triblock copolymers. Materials Science and Engineering B-Solid State Materials for Advanced Technology
(3), 314-317.
46.&Liu S. H.; Lu H. W.; Qian X. F.; Yin J.; Zhu Z. K., Synthesis of beltlike CdS nanocrystals via solvothermal route. Journal Of Solid State Chemistry
(2), 480-484.
45.&Li Z. K.; Xi H. A.; Qian X. F.; Yin J.; Zhu Z. K., Morphological control of mesoporous silica in a base condition. Journal Of Inorganic Materials ), .
44.&He R.; Qian X. F.; Yin J.; Zhu Z. K.; Wang H. L., Formation of silver nanoprisms and their optical properties. Chemical Journal Of Chinese Universities-chinese ), .
43.&He R.; Qian X. F.; Yin J.; Zhu Z. K., Preparation of Bi2S3 nanowhiskers and their morphologies. Journal Of Crystal Growth
(4), 505-510.
42.&He R.; Qian X. F.; Yin J.; Zhu Z. K., Formation of silver dendrites under microwave irradiation. Chemical Physics Letters
(3-4), 454-458.
41.&He R.; Qian X. F.; Yin J.; Xi H. A.; Bian L. J.; Zhu Z. K., Formation of monodispersed PVP-capped ZnS and CdS nanocrystals under microwave irradiation. Colloids and Surfaces A-physicochemical and Engineering Aspects
(1-3), 151-157.
40.&He R.; Qian X. F.; Yin J.; Bian L. J.; Xi H. A.; Zhu Z. K., In situ synthesis of CdS/PVK nanocomposites and their optical properties. Materials Letters ), .
39.&Bian L. J.; Qian X. F.; Yin J.; Zhu Z. K.; Lu Q. H., Preparation and luminescence properties of the PMMA/SiO2/EuL3 center dot 2H(2)O hybrids by a sol-gel method. Materials Science and Engineering B-Solid State Materials for Advanced Technology
(1), 53-58.
38.&Xi H. G.; Zhang Y. B.; Li Z. K.; Qian X. F.; Yin J.; Zhu Z. K., Photophysical properties of poly(N-vinylcarbazole) in the meso-channels of zeolite MCM-41. Journal Of Materials Science Letters ), .
37.&Ma X. D.; Qian X. F.; Yin J.; Zhu Z. K., Preparation and characterization of polyvinyl alcohol-selenide nanocomposites at room temperature. Journal Of Materials Chemistry ), 663-666.
36.&Ma X. D.; Qian X. F.; Yin J.; Xi H. A.; Zhu Z. K., Preparation and characterization of polyvinyl alcohol-capped CdSe nanoparticles at room temperature. Journal Of Colloid and Interface Science
(1), 77-81.
35.&Liu S. H.; Qian X. F.; Yin J.; Hong L.; Wang X. L.; Zhu Z. K., Synthesis and characterization of Ag2S nanocrystals in hyperbranched polyurethane at room temperature. Journal Of Solid State Chemistry
(1), 259-262.
34.&Li L.; Lu Q. H.; Yin J.; Qian X. F.; Wang W. K.; Zhu Z. K.; Wang Z. G., Photosensitive polyimide (PSPI) materials containing inorganic nano particles (I)PSPL/TiO2 hybrid materials by sol-gel process. Materials Chemistry and Physics ), 210-213.
33.&He R.; Qian X. F.; Yin J.; Zhu Z. K., Preparation of polychrome silver nanoparticles in different solvents. Journal Of Materials Chemistry ), .
32.&Bian L. J.; Xi H. A.; Qian X. F.; Yin J.; Zhu Z. K.; Lu Q. H., Synthesis and luminescence property of rare earth complex nanoparticles dispersed within pores of modified mesoporous silica. Materials Research Bulletin ), .
31.&Bian L. J.; Qian X. F.; Yin J.; Zhu Z. K.; Lu Q. H., EU3+ complex/polyimide nanocomposites: Improvement in mechanical and thermal properties. Journal Of Applied Polymer Science ), .
30.&Bian L. J.; Qian X. F.; Yin J.; Lu Q. H.; Liu L.; Zhu Z. K., Preparation and properties of rare earth oxide/polyimide hybrids. Polymer Testing ), 841-845.
29.&Sun Y. Y.; Qian X. F.; Yin J.; Huang J. C.; Ma X. D.; Zhu Z. K., Preparation and characterization of nanocrystalline PbSe in poly(acrylic acid-co-styrene). Journal Of Materials Research ), .
28.&Qian X. F.; Yin J.; Yang Y. F.; Lu Q. H.; Zhu Z. K.; Lu J., Polymer-inorganic nanocomposites prepared by hydrothermal method: Preparation and characterization of PVA-transition-metal sulfides. Journal Of Applied Polymer Science ), .
27.&Qian X. F.; Yin J.; Huang J. C.; Yang Y. F.; Guo X. X.; Zhu Z. K., The preparation and characterization of PVA/Ag2S nanocomposite. Materials Chemistry and Physics -3), 95-97.
26.&Qian X. F.; Yin J.; Feng S.; Liu S. H.; Zhu Z. K., Preparation and characterization of polyvinylpyrrolidone films containing silver sulfide nanoparticles. Journal Of Materials Chemistry ), .
25.&Qian X. F.; Xie Y.; Qian Y. T., Solventothermal synthesis and morphological control of nanocrystalline FeS2. Materials Letters ), 109-111.
24.&Huang J. C.; Zhu Z. K.; Yin J.; Zhang D. M.; Qian X. F., Preparation and properties of rigid-rod polyimide/silica hybrid materials by sol-gel process. Journal Of Applied Polymer Science ), 794-800.
23.&Huang J. C.; Zhu Z. K.; Yin J.; Qian X. F.; Sun Y. Y., Poly(etherimide)/montmorillonite nanocomposites prepared by melt intercalation: morphology, solvent resistance properties and thermal properties. Polymer ), 873-877.
22.&Huang J. C.; Zhu Z. K.; Ma X. D.; Qian X. F.; Yin J., Preparation and properties of montmorillonite/organo-soluble polyimide hybrid materials prepared by a one-step approach. Journal Of Materials Science ), 871-877.
21.&Huang J. C.; Qian X. F.; Yin J.; Zhu Z. K.; Xu H. J., Preparation of soluble polyimide-silver nanocomposites by a convenient ultraviolet irradiation technique. Materials Chemistry and Physics -3), 172-175.
20.&Qian X. F.; Yin J.; Guo X. X.; Yang Y. F.; Zhu Z. K.; Lu J., Polymer-inorganic nanocomposites prepared by hydrothermal method: PVA/ZnS, PVA/CdS, preparation and characterization. Journal Of Materials Science Letters ), .
19.&Qian X. F.; Li Y. D.; Xie Y.; Qian Y. T., The synthesis and morphological control of nanocrystalline pyrite nickel disulfide and cobalt disulfide. Materials Chemistry and Physics ), 97-99.
18.&Huang J. C.; Zhu Z. K.; Qian X. F.; Yin J., MnO2/polyimide hybrid materials prepared with a convenient ultraviolet irradiation technique. Materials Research Bulletin -15), .
17.&Qian X. F., Zhang X. M., Wang C., Wang W. Z., Xie Y., Qian Y. T., Solvothermal preparation of nanocrystalline tin sulfide, J. Phys. & Chem. Solids -417
16.&Qian X. F., Zhang X. M., Wang C., Xie Y., Qian Y. T., The preparation and phase transformation of nanocrystalline cobalt sulfides via a toluene thermal process, Inorg. Chem., 1-2623
15.&Qian X. F., Zhang X. M., Wang C., Tang K. B., Xie Y., Qian Y. T., Benzene-thermal preparation of nanocrystalline chromium nitride, Mater. Res. Bull., -436
14.&Qian X. F., Zhang X. M., Wang C., Wang W. Z., Xie Y., Qian Y. T., The preparation and the phase transformation of nanocrystalline iron sulfides via toluene-thermal process, Mater. Sci. & Eng. B -173
13.&Wang C., Qian X. F., Zhang X. M., Zhang W. X., Xie Y., Qian Y. T., A new chemical route to prepare nanocrystalline cobalt monoarsenide, Mater. Res. Bull., 29-1133.
12.&Wang C., Qian X. F., Zhang X. M., Xie Y., Qian Y. T., Preparation of ZnSe films through chemical solution reduction process, Mater. Res. Bull., 7-1641
11.&Zhang X. M., Wang C., Qian X. F., Xie Y., Qian Y. T., Synthesis of nanocrystalline iron monoarsenide via a reduction recombination pathway, J. Solid State Chem., -239
10.&Zhan J. H., Zhang Z. D., Qian X. F., Wang C., Xie Y., Qian Y. T., Synthesis of MoSe2 nanocrystallites by a solvothermal conversion from MoO3, Mater. Res. Bull., -501
9.&Wang C., Zhang W. X., Qian X. F., Zhang X. M., Xie Y., Qian Y. T., An aqueous approach to ZnSe and CdSe semiconductor nanocrystals, Mater. Chem. Phys., -102
8.&Wang C., Zhang W. X , Qian X. F., Zhang X. M., Xie Y., Qian Y. T., A room temperature chemical route to nanocrystalline PbS semiconductor, Mater. Lett., -258
7.&Wang C., Zhang X. M., Qian X. F., Xie Y., Qian Y. T., A low temperature route to nanocrystalline Co9S8, J. Phys. Chem. Solidi., 5-2008
6.&Qian X. F., Zhang X. M., Wang C., Wang W. Z., Qian Y. T., A new way to prepare nanocrystalline dinickel phosphide, Mater. Res. Bull., -672
5.&Qian X. F., Zhang X. M., Wang C., Tang K. B., Xie Y., Qian Y. T., Solvent-thermal preparation of nanocrystalline pyrite cobalt disulfide, J. Alloy. Compd., -112
4.&Zhan J. H., Zhang Z. D., Qian X. F., Wang C., Xie Y., Qian Y. T., Solvothermal synthesis of nanocrystalline MoS2 from MoO3 and elemental sulfur, J. Solid State Chem., -273
3.&Wang C., Zhang X. M., Qian X. F., Wang W. Z., Qian Y. T., Ultrafine powder of silver sulfide semiconductor prepared in alcohol solution, Mater. Res. Bull., 3-1086
2.&Wang C., Zhang X. M., Qian X. F., Xie Y., Wang W. Z., Qian Y. T., Preparation of nanocrystalline nickel powders through hydrothermal-reduction method, Mater. Res. Bull., 7-1751
1.&Qian X. F., Xie Y., Qian Y. T., Zhang X. M., Wang W. Z., Yang L., Organo-thermal preparation of nanocrystalline cobalt phosphides, Mater. Sci. & Eng. B 5-137.
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