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芮先宏教授

2015/05/03 10:37:49人浏览

     

芮先宏(Xianhong Rui教授

所属学院:

材料与能源学院

导师类别:

博士生导师

科研方向:  

储能材料与器件

联系方式:

xhrui@gdut.edu.cn

招生学院:

材料与能源学院


个人简述

芮先宏,博士,广东工业大学百人计划特聘教授,博士生导师,曾获安徽省皖江学者特聘教授和安徽省战略性新兴产业领军人才荣誉。2007年获济南大学学士学位;2010年获中国科学技术大学硕士学位(硕士论文入选安徽省优秀硕士论文);2014年获新加坡南洋理工大学博士学位(攻读博士学位期间获国家优秀自费留学生奖学金)。博士毕业后继续在新加坡南洋理工大学从事了近两年的博士后研究工作。长期从事储能材料与器件的研究和应用, 在纳米结构钒基和磷酸盐基电极材料(如V2O5LiFePO4Li3V2(PO4)3Na3V2(PO4)3等)方面取得了较多突出成果,尤其是发明了V2O5纳米线规模化室温制备技术、高性能橄榄石型超薄纳米片(厚度:<   5 nm),以及Li3V2(PO4)3超细纳米晶(晶粒:< 10 nm)正极材料。在国际权威学术期刊如Adv.   Mater., Angew. Chem. Int. Ed., Adv. Energy Mater., ACS Nano等杂志上发表SCI论文70余篇,其中第一作者/通讯作者30余篇,论文已被引用4700余次,h-index(引用指数):43,获得了国内外同行专家的广泛认可。另外,获得授权国家发明专利2项。作为项目负责人,先后承担了国家自然科学基金、安徽省自然科学基金、留学人员科技活动择优资助项目,以及国家重点实验室、中科院重点实验室和教育部重点实验室开放基金等。


学科领域

科学学位材料科学与工程

专业学位材料科学与工程


教育背景

l   2003/092007/06   济南大学材料科学与工程学院   学士

l   2007/092010/06   中国科学技术大学材料科学与工程系   硕士

l   2010/082014/05    新加坡南洋理工大学材料科学与工程学院   博士


工作经历

l   2014/092016/01    新加坡南洋理工大学   博士后

l   2014/072017/08    安徽工业大学能源与环境学院   教授,博导

l   2017/09–至今       广东工业大学材料与能源学院     教授,博导


主要荣誉

l   2016年,安徽省战略性新兴产业领军人才

l   2015年,安徽省“皖江学者”特聘教授

l   2014年,安徽省第四届优秀硕士论文

l   2013年,国家优秀自费留学生奖学金


主要论文

ResearcherID: http://www.researcherid.com/rid/D-2604-2015 #共同第一作者,*通讯作者):

[1]     X.H. Rui, W.P. Sun, C. Wu, Y. Yu(*),   Q.Y. Yan(*), An Advanced Sodium-Ion Battery Composed of   Carbon Coated Na3V2(PO4)3 in   Porous Graphene Network, Advanced Materials, 2015, 27(42):   6670-6676.

[2]     J.S. Wu(#),   X.H. Rui(#), G.K. Long, W.Q. Chen, Q.Y. Yan(*),   Q.C. Zhang(*), Pushing Up Lithium Storage through   Nanostructured Polyazaacene Analogues as Anode, Angewandte Chemie   International Edition, 2015, 54(25): 7354-7358.

[3]     X.H. Rui, X. X. Zhao, Z. Y. Lu, H. T. Tan, D. H.   Sim, H. H. Hng, R. Yazami, T. M. Lim, Q. Y. Yan(*),    Olivine-Type Nanosheets for Lithium Ion Battery Cathodes, ACS Nano,   2013, 7(6): 5637-5646.

[4]     Y.P. Zhou(#),   X.H. Rui(#), W.P. Sun, Z.C. Xu, Y. Zhou, W. Jern, Q.Y.   Yan(*), E. Fong(*),   Biochemistry-Enabled 3D Foams for Ultrafast Battery Cathodes, ACS Nano,   2015, 9 (4): 4628-4635.

[5]     X.H. Rui, Y.X.Tang, O. Malyi, A. Gusak, Y.Y. Zhang,   Z.Q. Niu, H.T. Tan, C. Persson, X.D.  Chen, Z. Chen, Q.Y. Yan, Ambient   Dissolution-Recrystallization towards Large-Scale Preparation of V2O5   Nanobelts for High-Energy Battery Applications, Nano Energy, 2016, 22:   583-593.

[6]     Y.Y.   Zhang(#), X.H. Rui(#), Y.X. Tang(#), Y.Q. Liu, J.Q.   Wei, S. Chen, W.R. Leow, W.L. Li, Y.J. Liu, J.Y. Deng, B. Ma, Q.Y. Yan(*),   X.D. Chen(*), Wet-Chemical Processing of Phosphorus   Composite Nanosheets for High-Rate and High-Capacity Lithium-Ion Batteries, Advanced   Energy Materials, 2016, DOI: 10.1002/aenm.201502409.

[7]     J.S. Wu(#),   X.H. Rui(#), C.Y. Wang, W.B. Pei, R. Lau, Q.Y. Yan(*),   Q.C. Zhang(*), Nanostructured Conjugated Ladder   Polymers for Stable and Fast Lithium Storage Anodes with High-Capacity, Advanced   Energy Materials, 2015, 5(9): 1402189.

[8]     X.H. Rui,  Z.Y. Lu, Z.Y. Yin, D.H. Sim, N.   Xiao, T.M. Lim, H.H. Hng, H. Zhang(*), Q.Y. Yan(*),   Oriented Molecular Attachments Through Sol-Gel Chemistry for Synthesis of   Ultrathin Hydrated Vanadium Pentoxide Nanosheets and Their Applications, Small,   2013, 9(5): 716-721.

[9]     H.T. Tan,   X.H. Rui(*), W.P.   Sun, Q.Y. Yan(*), T.M. Lim(*),   Vanadium-Based Nanostructure Materials for Secondary Lithium Battery   Applications, Nanoscale, 2015, 7: 14595-14607.

[10]   X.H. Rui, H.T. Tan, Q.Y. Yan(*),   Nanostructured Metal Sulfides for Energy Storage, Nanoscale, 2014,   6(17): 9889-9924.

[11]   X.H. Rui, Z.Y. Lu, H. Yu, D. Yang, H.H. Hng, T.M.   Lim(*), Q.Y. Yan(*), Ultrathin V2O5   Nanosheet Cathodes: Realizing Ultrafast Reversible Lithium Storage, Nanoscale,   2013, 5(2): 556-560.

[12]   X.H. Rui, J.X. Zhu, D.H. Sim, C. Xu, Y. Zeng, H.H.   Hng, T.M. Lim(*), Q.Y. Yan(*),   Reduced Graphene Oxide Supported Highly Porous V2O5   Spheres as a High-Power Cathode Material for Lithium Ion Batteries, Nanoscale,   2011, 3(11): 4752-4758.

[13]   Y.X. Tang(#),   X.H. Rui(#), Y.Y. Zhang, T.M. Lim(*),   Z.L. Dong(*), H.H. Hng, X.D. Chen, Q.Y. Yan(*),   Z. Chen(*), Vanadium Pentoxide Cathode Materials for   High-performance Lithium-ion Batteries Enabled by a Hierarchical Nanoflower   Structure via An Electrochemical Process, Journal of Materials Chemistry A,   2013, 1(1): 82-88.

[14]   X.H. Rui, Q.Y. Yan(*), T.M.   Lim(*), M. Skyllas-Kazacos(*), Li3V2(PO4)3   cathode materials for lithium-ion batteries: A review, Journal of Power   Sources, 2014, 258: 19-38.

[15]   X.H. Rui, D.H. Sim, K.M. Wong, J.X. Zhu, W.L. Liu,   C. Xu, H.T. Tan, N. Xiao, H.H. Hng, T.M. Lim(*), Q.Y.   Yan(*), Li3V2(PO4)3   Nanocrystals Embedded in a Nanoporous Carbon Matrix Supported on Reduced   Graphene Oxide Sheets: Binder-Free and High-Rate Cathode Material for   Lithium-Ion Batteries, Journal of Power Sources, 2012, 214: 171-177.

[16]   X.H. Rui, H.T. Tan, D.H. Sim, W.L. Liu, C. Xu, H.H.   Hng, R. Yazami, T.M. Lim(*), Q.Y. Yan(*),   Template-Free Synthesis of Urchin-Like Co3O4 Hollow   Spheres with Good Lithium Storage Properties, Journal of Power Sources,   2012, 222: 97-102.

[17]   X.H. Rui, Y. Jin, X.Y. Feng, L.C. Zhang, C.H. Chen(*),   A Comparative Study on the Low-Temperature Performance of LiFePO4/C   and Li3V2(PO4)3/C Cathodes for   Lithium-Ion Batteries, Journal of Power Sources, 2011, 196(4):   2109-2114.

[18]   X.H. Rui, N. Yesibolati, C.H. Chen(*),   Li3V2(PO4)3/C Composite as an   Intercalation-Type Anode Material for Lithium-Ion Batteries, Journal of   Power Sources, 2011, 196(4): 2279- 2282.

[19]   W.P. Sun(#),   X.H. Rui(#), J.X. Zhu, L.H. Yu, Y. Zhang, Z.C. Xu, S.   Madhavi(*), Q.Y. Yan(*),   Ultrathin Nickel Oxide Nanosheets for Enhanced Sodium and Lithium storage, Journal   of Power Sources, 2015, 274: 755-761.

[20]   X.H. Rui, A. Parasuraman, W.L. Liu, D.H. Sim, Q.Y.   Yan, T.M. Lim(*), M. Skyllas-Kazacos, Functionalized   Single-Walled Carbon Nanotubes with Enhanced Electrocatalytic Activity for Br-/Br3-   Redox Couple for Vanadium Bromide Redox Flow Batteries, Carbon, 2013,   64: 464-471.

[21]   L.T. Yan,   G. Chen, S. Sarker, S. Richins, H.Q. Wang, W.C. Xu, X.R. Rui(*), H.M. Luo(*),   Ultrafine Nb2O5 Nanocrystal Coating on Reduced Graphene   Oxide as Anode Material for High Performance Sodium Ion Battery, ACS   Applied Materials & Interfaces, 2016, 8(34): 22213-22219.

[22]   J. Xie(#),   X.H. Rui(#), P.Y. Gu, J.S. Wu, Z.C. Xu, Q.Y. Yan(*),   Q.C. Zhang(*), Novel Conjugated Ladder-Structured   Oligomer Anode with High Lithium Storage and Long Cycling Capability, ACS   Applied Materials & Interfaces, 2016, 8(26): 16932-16938.

[23]   X.H. Rui, M.O. Oo, D.H. Sim, S. Raghu, Q.Y. Yan(*),   T.M. Lim(*), M. Skyllas-Kazacose(*),   Graphene Oxide Nanosheets/Polymer Binders as Superior Electrocatalytic   Materials for Novel Vanadium Bromide Redox Flow Batteries, Electrochimica   Acta, 2012, 85: 175-181.

[24]   X.H. Rui, N. Ding, J. Liu, C. Li, C.H. Chen(*),   Analysis of the Chemical Diffusion Coefficient of Lithium Ions in Li3V2(PO4)3/C   Cathode Material, Electrochimica Acta, 2010, 55(7): 2384-2390.

[25]   X.H. Rui, C. Li, C.H. Chen(*).   Synthesis and Characterization of Carbon-Coated Li3V2(PO4)3/C   Cathode Materials with Different Carbon Sources, Electrochimica Acta,   2009, 54(12): 3374-3380.

[26]   X.H. Rui, C. Li, J. Liu, T. Cheng, C.H. Chen(*),   The Li3V2(PO4)3/C Composites with   High-Rate Capability Prepared by a Maltose-Based Sol-Gel Route, Electrochimica   Acta, 2010, 55(22): 6761-6767.

[27]   X.H. Rui, J.X. Zhu, W.L. Liu, H.T. Tan, D.H. Sim,   C. Xu, H. Zhang, J. Ma, H.H. Hng, T.M. Lim(*), Q.Y. Yan(*),   Facile Preparation of Hydrated Vanadium Pentoxide Nanobelts Based Bulky Paper   as Flexible Binder-free Cathodes for High-performance Lithium Ion batteries, RSC   Advances, 2011, 1(1): 117-122.

[28]   X.H. Rui, D.H. Sim, C. Xu, W.L. Liu, H.T. Tan, K.M.   Wong, H.H. Hng, T.M. Lim(*), Q.Y. Yan(*),   One-Pot Synthesis of Carbon-Coated VO2(B) Nanobelts for High-Rate   Lithium Storage, RSC Advances, 2012, 2(3): 1174-1180.

[29]   D.H. Sim(#),   X.H. Rui(#), J. Chen, H.T. Tan, T.M. Lim, R. Yazami,   H.H. Hng(*), Q.Y. Yan(*), Direct   Growth of FeVO4 Nanosheet Arrays on Stainless Steel Foil as   High-Performance Binder-Free Li Ion Battery Anode, RSC Advances, 2012,   2(9): 3630-3633.

[30]   X.H. Rui, W.P. Sun, Q.Y. Yan(*),   T.M. Lim(*), M. Skyllas-Kazacos(*),   Microemulsion-Assisted Synthesis of Nanosized Li-Mn-O Spinel Cathodes for   High-Rate Lithium-Ion Batteries, ChemPlusChem, 2014, 79, 1794-1798.

[31]   X.H. Rui, N. Yesibolati, S.R. Li, C.C. Yuan, C.H.   Chen(*), Determination of the Chemical Diffusion   Coefficient of Li+ in Intercalation-Type Li3V2(PO4)3   Anode Material, Solid State Ionics, 2011, 187(1): 58-63.

[32]   W.P. Sun,   X.H. Rui, D. Yang, Z.Q. Sun, B. Li, W.Y. Zhang, Y. Zong, S   Madhavi(*), S.X. Dou(*),Q.Y. Yan(*),   Two-Dimensional Tin Disulfide Nanosheets for Enhanced Sodium Storage, ACS   Nano, 2015, 9(11):11371-11381.

[33]   Y.X Tang,   Y.Y. Zhang, X.H. Rui, D.P. Qi, Y.F. Luo, W.R. Leow, S. Chen, J.   Guo, J.Q. Wei, W.L. Li , J.Y. Deng, Y.K. Lai, B. Ma, X.D. Chen(*),   Conductive Inks Based on a Lithium Titanate Nanotube Gel for High-Rate   Lithium-Ion Batteries with Customized Configuration, Advanced Materials,   2016, 28(8): 1567-1576.

[34]   W.P. Sun,   X.H. Rui, D. Zhang, Y.Z. Jiang, Z.Q. Sun, H.K. Liu, S.X. Dou(*),   Bismuth Sulfide: A High-Capacity Anode for Sodium-Ion Batteries, Journal   of Power Sources, 2016, 309: 135-140.

[35]   W.P. Sun,   X.H. Rui, M. Ulaganathan, S. Madhavia(*),   Q.Y. Yan(*), Few-Layered Ni(OH)2 Nanosheets   for High-Performance Supercapacitors, Journal of Power Sources, 2015,   295: 323-328.

[36]   L.T.   Yan,   X.H. Rui,   G. Chen,     W.C. Xu,   G.F. Zou(*),   H.M. Luo(*),   Recent Advances in Nanostructured Nb-based Oxides for Electrochemical Energy   Storage, Nanoscale, 2016, 8, 8443-8465.

[37]   R.B. Wu(#),   D.P. Wang(#), X.H. Rui, B. Liu, K. Zhou(*),   A.W.K. Law, Q.Y. Yan, J. Wei, Z Chen(*), In-Situ   Formation of Hollow Hybrids Composed of Cobalt Sulfides Embedded within   Porous Carbon Polyhedra/Carbon Nanotubes for High-Performance Lithium-Ion   Batteries, Advanced Materials, 2015, 27(19): 3038-3044.

[38]   X. H.   Cao, B. Zheng, W. H. Shi, J. Yang, Z. X. Fan, Z. M. Luo, X. H. Rui, B.   Chen, Q. Y. Yan, H. Zhang(*), Reduced Graphene   Oxide-Wrapped MoO3 Composites Prepared by Using Metal-Organic   Frameworks as Precursor for All-Solid-State Flexible Supercapacitors, Advanced   Materials, 2015, 27(32): 4695-4701.

[39]   C.L. Tan(#),   Z.Y. Zeng(#), X. Huang(#), X.H. Rui, X.J.   Wu, B. Li, Z.M. Luo, J.Z. Chen, B. Chen, Q.Y. Yan, H. Zhang(*),   Liquid-Phase Epitaxial Growth of Two-Dimensional Semiconductor   Hetero-nanostructures, Angewandte Chemie, 2015, 127(25): 7462-7466.

[40]   Y. Zhang,   W.P. Sun, X.H. Rui, B. Li, H.T. Tan, G.L. Guo, S. Madhavi, Y.   Zong, Q.Y. Yan(*), One-Pot Synthesis of Tunable   Crystalline Ni3S4@Amorphous MoS2 Core/Shell   Nanospheres for High-Performance Supercapacitors, Small, 2015, 11(30):   3694-3702.

[41]   W.P. Sun,   X.H. Rui, M. Ulaganathan, S. Madhavi, Q.Y. Yan, Few-Layered   Ni(OH)2 Nanosheets for High-Performance Supercapacitors, Journal   of Power Sources, 2015, 295: 323-328.

[42]   CC. Sun,   J. Yang,   X.H. Rui,   W.N.   Zhang,   Q.Y. Yan,   P. Chen,   F.W. Huo(*),   W. Huang(*), X.C. Dong(*),   MOF-Directed Templating Synthesis of a Porous Multicomponent Dodecahedron   with Hollow Interiors for Enhanced Lithium-Ion Battery Anodes, Journal of   Materials Chemistry A, 2015, 3:8483-8488.

[43]   H.T. Tan,   X.H. Rui, H. Yu, W.L. Liu, C. Xu, Z.C. Xu, H.H. Hng, Q.Y. Yan(*),   An Aqueous-Based Chemical Route towards Ambient-Preparation of   Multi-components Core-Shell Nanotubes, ACS Nano, 2014, 8(8):   4004-4014.

[44]   X. Huang(*),   X.H. Rui, H.H. Hng(*), Q.Y. Yan(*),   Vanadium Pentoxide-based Cathode Materials for Lithium-Ion Batteries:   Morphology control, Carbon Hybridization and Cation Doping, Particle and   Particle Systems Characterization, 2015, 32(3): 276-294.

[45]   W.L. Liu,   X.H. Rui, H.T. Tan, C. Xu, Q.Y. Yan, H.H. Hng(*),   Solvothermal Synthesis of Pyrite FeS2 Nanocubes and Their Superior   High Rate Lithium Storage Properties, RSC Advances, 2014, 4(90):   48770- 48776.

[46]   H.T. Tan,   X.H. Rui, Z.Y. Lu, C. Xu, W.L. Liu, H.H. Hng, Q.Y. Yan(*),   Integrated Charge Transfer in Colloidal Cu-MnO Heterostructures for   High-Performance Lithium Ion Batteries, Journal of Physical Chemistry C,   2014, 118(31): 17452-17460.

[47]   X.X.   Zhao, X.H. Rui, W.W. Zhou, L.P. Tan, Q.Y. Yan, Z.Y. Lu(*),   H.H. Hng(*), Growth of Si Nanowires in Porous Carbon with   Enhanced Cycling Stability for Li-Ion Storage, Journal of Power Sources,   2014, 250: 160-165.

[48]   H. Yu, X.H.   Rui,  H. Tan, J. Chen, X. Huang, C. Xu, W.L. Liu, D. Y. W. Yu,   H. E. Hoster, Q.Y. Yan(*), Cu Doped V2O5   Flowers as Cathode Material for High-Performance Lithium Ion Batteries, Nanoscale,   2013, 5(11): 4937-4943.

[49]   H.T. Tan,   X.H. Rui, W.H. Shi, C. Xu, H. Yu, H. E. Hoster, Q.Y. Yan(*),   Controlled Synthesis of Nanostructured Manganese Oxyhydroxide Nanotubes:   Implication for High-Power High-Energy Supercapaitor, ChemPlusChem,   2013, 78(6): 554-560.

[50]   Z.Y. Lu, X.H.   Rui, H.T. Tan, W.Y. Zhang, H. H. Hng(*), Q.Y.   Yan(*), Synthesis of Single-Crystalline LiMn2O4   and LiMn1.5Ni0.5O4 Nanocrystals and Their Li   Storage Properties, ChemPlusChem, 2013, 78(3): 218-221.

[51]   W.H. Shi,   X.H. Rui, J.X. Zhu, Q.Y. Yan(*), Design   of Nanostructured Hybrid Materials Based on Carbon and Metal Oxides for Li   Ion Batteries, Journal of Physical Chemistry C, 2012, 116(51):   26685-26693.  

[52]   H. Yu(#),   C. Guan(#), X.H. Rui, B. Ouyang, B. Yadian, Y.Z.   Huang, H. Zhang, H.E. Hoster, H.J. Fan(*), Q.Y. Yan(*),   Hierarchically Porous Three-dimensional Electrodes of CoMoO4 and   ZnCo2O4 and Their High Anode Performance for Lithium   Ion Batteries, Nanoscale, 2014, 6(18): 10556-10561.

[53]   D. Yang,   Z.Y. Lu, X.H. Rui, X. Huang, H. Li, J.X. Zhu, W.Y. Zhang, Y.M.   Lam, H.H. Hng, H. Zhang(*), Q.Y. Yan(*),   Synthesis of Two-Dimensional Transition Metal Phosphates with Highly Ordered   Mesoporous Structures for Lithium-Ion Battery Application, Angewandte   Chemie International Edition, 2014, 53(35): 9352-9355.

[54]   R.B. Wu(#),   X.K. Qian(#), X.H. Rui, H. Liu, B. Yadian, K. Zhou(*),   J. Wei, Q.Y. Yan, X.Q. Feng, Y. Long(*), L.Y. Wang,   Y.Z. Huang(*), Zeolitic Imidazolate Framework   67-Derived High Symmetric Porous Co3O4 Hollow   Dodecahedra with Highly Enhanced Lithium Storage Capability, Small,   2014, 10(10): 1932-1938.

[55]   X.H. Cao(#),   B. Zheng(#), X.H. Rui, W.H. Shi, Q.Y. Yan, H. Zhang(*),   Metal Oxide-Coated Three-Dimensional Graphene Prepared by the Use of   Metal-Organic Frameworks as Precursors, Angewandte Chemie International   Edition, 2014, 53(5): 1404-1409.

[56]   C. Xu, Y.   Zeng, X.H. Rui, J.X. Zhu, H.T. Tan, A. Guerrero, J. Toribio, J.   Bisquert, G. Garcia-Belmonte(*), Q.Y. Yan(*),   Amorphous Iron Oxyhydroxide Nanosheets: Synthesis, Li Storage and Conversion   Reaction Kinetics, Journal of Physical Chemistry C, 2013, 117(34):   17462-17469.

[57]   D. Yang(#),   Y.P. Zhou(#), X.H. Rui, J.X. Zhu, Z.Y. Lu , E. Fong(*),   Q.Y. Yan(*), Fe3O4 Nanoparticle   Chains with N-doped Carbon Coating: Magnetotactic Bacteria Assisted Synthesis   and High-Rate Lithium Storage, RSC Advances, 2013, 3(35): 14960-14962.

[58]   J.X. Zhu(#),   D. Yang(#), X.H. Rui, D.H. Sim, H. Yu, H. E. Hoster,   P. M. Ajayan, Q.Y. Yan(*), Facile Preparation of   Ordered Porous Graphene-Metal Oxide@C Binder-Free Electrodes with High Li   Storage Performance, Small, 2013, 9(20): 3390-3397.

[59]   D. Yang,   J.X. Zhu, X.H. Rui, H.T. Tan, R. Cai, H. E. Hoster, D. Y. W.   Yu, H. H. Hng, Q.Y. Yan(*), Synthesis of Cobalt   Phosphides and Their Application as Anodes for Lithium Ion Batteries, ACS   Applied Materials & Interfaces, 2013, 5(3): 1093-1099.

[60]   Y.P. Du,   Z.Y. Yin, X.H. Rui, Z.Y. Zeng, X.J. Wu, J.Q. Liu, Y.Y. Zhu,   J.X. Zhu, X. Huang, Q.Y. Yan, H. Zhang(*), Facile,   Relative Green, Inexpensive Synthetic Approach Toward Large-Scale SnS2   Nanoplates for High-Performance Lithium-Ion Batteries, Nanoscale,   2013, 5(4): 1456-1459.

[61]   W.H. Shi,   J.X. Zhu, X.H. Rui, X.H. Cao, C. Chen, H. Zhang, H.H. Hng, Q.Y.   Yan(*), Controlled Synthesis of Carbon Coated Cobalt   Sulfide Nanostructures in Oil Phase and Their Li Storage Performances, ACS   Applied Materials & Interfaces, 2012, 4(6): 2999-3006.

[62]   C. Xu, Y.   Zeng, X.H. Rui, N. Xiao, J.X. Zhu, W.Y. Zhang, J. Chen, H.T.   Tan, H.H. Hng, Q.Y. Yan(*), Controlled Soft-Template   Synthesis of Ultra-thin C@FeS Nanosheets with High Li Storage Performance, ACS   Nano, 2012, 6(6): 4713-4721.

[63]   S.F. Fan,   T. Sun, X.H. Rui, N. Xiao, Q.Y. Yan, H.H. Hng(*),   Cooperative Enhancement of Capacities in Nanostructured Bulk SnSb-CNT Network   Nanocomposite as Anode for Lithium Ion Batteries, Journal of Power Sources,   2012, 201: 288-293.

[64]   C.M.   Zhang, J.X. Zhu, X.H. Rui, J. Chen, D.H. Sim, W.H. Shi, H.H.   Hng, T.M. Lim(*), Q.Y. Yan(*),   Synthesis of Hexagonal-symmetry α-Iron Oxyhydroxide Crystals Using Reduced   Graphene Oxide as Surfactants and Their Li Storage Properties, CrystEngComm,   2011, 14(1): 147-153.

[65]   Y. Jin,   C.P. Yang, X.H. Rui, T. Cheng, C.H. Chen(*),   V2O3 Modified LiFePO4/C Composite with   Improved Electrochemical Performance, Journal of Power Sources, 2011,   196(13): 5623-5630.

[66]   X.H. Cao,   Y.M. Shi, W.H. Shi, X.H. Rui, J. Kong, Q.Y. Yan, Hua Zhang(*),   Preparation of MoS2-Coated Three-Dimensional Graphene Networks for   High-Performance Anode Material in Lithium-Ion Batteries, Small, 2013,   9(20), 3433-3438.

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知识产权

申请了近10项国家发明专利,已授权2


科研项目

[1]       国家自然科学基金青年项目(主持)

《纳米片状自组装结构Li3V2(PO4)3/C正极材料的超临界流体合成、机理及构效关系研究》

2017.01-2019.12

[2]       安徽省自然科学基金青年项目(主持)

《纳微结构V2O5的可控制备及储锂性能研究》 2016.07-2018.06