亓亓小屋
近五年作为通讯作者,共发表了研究论文200余篇,其中被SCI收录180余篇,主要发表在国际著名的Adv. Funct. Mater.、Chem: Eur.J.、Chem. Commun.、J. Mater. Chem.、 J. Phys. Chem. B、J. Phys. Chem. C、J. Comput. Chem.、Inorg. Chem.、Appl. Catal. B、Nanotechnology、J. Phys.: Condensed Matter等学术期刊上,影响因子在3.0以上的论文有50余篇,其中影响因子在5.0以上8篇。成果被SCI收录期刊正面引用1400余次。出版专著两部,美国科学出版社邀请为纳米科学技术大百科全书撰写了完整的一章。申请发明专利14项。已发表和已录用的主要论文清单如下(以下均为SCI期刊收录论文,*代表通讯联系人)·Pan Qing-Jiang,Guo Yuan-Ru,Li Li,Fu Hong-Gang*,and Zhang Hong-Xing “Structures,Spectroscopic Properties and Redox Potentials of Quaterpyridyl Ru(Ⅱ) Photosensitizer and its Derivatives for Solar Energy Cell: A Density Functional Study” Physical Chemistry Chemical Physics 2011,DOI:10.1039/C1CP00030F.·Gao Xiao-Qin,Pan Qing-Jiang,Li Li,Guo Yuan-Ru,Zhang Hong-Xing,Fu Hong-Gang* “Structures and Spectroscopic Properties of Ruthenium Phenanthroline Solar-Cell Sensitizers: A Computational Study” Chemical Physics Letters,2011,506,146-151.·Zhou W,Sun FF,Pan K,Tian GH,Fu HG*. Well-ordered large-pore mesoporous anatase TiO2 with remarkably high thermal stability and improved crystallinity: Preparation,characterization and photocatalytic performance. Advanced Functional Materials,2011,21,1922-1930..·Jiang Baojiang,Tian CG,Fu Honggang*,et al. In-Situ Growth of TiO2 in Interlayers of Expanded Graphite for the Fabrication of TiO2-Graphene with Enhanced Photocatalytic Activity. Chemistry-A European Journal,2011,Accepted,chem.201100250.· Li Sun,Chungui Tian,Lei Wang,Jinlong Zou,Guang Mu,Honggang Fu*,Magnetically Separable Porous Graphitic Carbon with Large Surface Area as Excellent Adsorbents for Metal Ions and Dye. Journal of Materials Chemistry,2011,2011,21,7232-7239.· Zhao H,Yang J,Wang L,Tian CG,Jiang BJ,Fu HG*. Fabrication of palladium nanoparticles/graphene nanosheets hybrid via sacrifice of copper template and its application in catalytic oxidation of formic acid. Chemical Communications,2011,47,2014-2016.· Yang J,Tian CG,Wang L,Fu HG*. An effective strategy to small-sized and high-dispersed palladium nano particles supported on graphene with excellent performance for formic acid oxidation. Journal of Materials Chemistry,2011,21,3384-3390.· Tian GH,Chen YJ,Zhou W,Ren ZY,Tian CG,Fu HG*. Facile solvothermal synthesis of hierarchical flower-like Bi2MoO6 hollow spheres as high performance visible-light driven photocatalysts. Journal of Materials Chemistry,2011,21,887 – 892.· Hu ZF,Shen PK*,Fu HG*,et al. Oxygen Reduction Electrocatalysis Enhanced by Nanosized Cubic Vanadium Carbide. Electrochemistry Communications,2011,Accepted,ELECOM 3881.· Tian Guohui,Chen Yajie,Zhou Wei,Pan Kai,Huang Xu-ri and Fu Honggang *,3D hierarchical flower-like TiO2 nanostructure: morphology control and its photocatalytic property. CrstEngComm,2011,13,2994.· Dong Youzhen,Pan Kai,Zhou Wei,Pan Qingjiang,Xie Tengfeng,Wang Dejun,Fu Honggang*,Dye-sensitized solar cells based on TiO2-B nanobelt/TiO2 nanoparticle sandwich-type photoelectrodes with controllable nanobelt length. Dalton Transactions,2011,40,3808–3814.· Cai ZC,Tian CG,Wang L,Zhou W,Wang BL,Fu HG*. One-pot synthesis of silver particle aggregation as highly active SERS substrate. Journal of Raman Spectroscopy,2011,1,5-11.· Tian CG,Li W,Fu HG*,et al. Glucose-mediated solution-solid route for easy synthesis of Ag/ZnO particles with superior photocatalytic activity and photostability,Journal of Alloys and Compounds,2011,509,6935-6941.· Tian CG,Li W,Fu HG*,et al. Controllable Fabrication of Various ZnO Micro/nanostructures from a Wire-like Zn-EG-AC Precursor via a Facile Solution-based Route,Materials Research Bulletin,2011,MRB5116.· Zhao H,Fu HG,Tian CG,et al.Facile shape-controlled synthesis of palladium nanostructures on copper for promising Surface-enhanced Raman scattering,MATERIALS LETTERS,2010,64,2255-2257· Zhao H,Fu HG,Tian CG,et al. Fabrication of silver nanoparticles/single-walled carbon nanotubes composite for surface-enhanced Raman scattering,JOURNAL OF COLLOID AND INTERFACE SCIENCE,2010,351,343-347.· Jiang BJ,Tian CG,Fu HG*,et al. Facile Fabrication of High Quality Graphene from Expandable Graphite: Simultaneous Exfoliation and Reduction. Chemical Communication. 2010,46,4920 - 4922.· Feng SS,Ren ZY,Fu HG*,et al. Synthesis and application of hollow magnetic graphitic carbon microspheres with/without TiO2 nanoparticle layer on the surface. Chemical Communication. 2010,46,6276-6278.· Liu Y,Ren ZY,Fu HG*,et al. Synthesis and applications of graphite carbon sphere with uniformly distributed magnetic Fe3O4 nanoparticles (MGCSs) and MGCS@Ag,MGCS@TiO2. Journal of Material Chemistry 2010,20,4802- 4808.· Wang L,Tian CG,Fu HG*,et al. Mass production of graphene via an in situ self-generating template route and its promoted activity as electrocatalytic support for methanol electroxidization. Journal of Physical Chemistry C 2010,114 (19),8727–8733.· Qu Y,Zhou W,Fu HG*,et al. Hierarchical anatase TiO2 porous nanopillars with high crystallinity and controlled length: An effective candidate for dye-sensitized solar-cells. Physical Chemistry Chemical Physics 2010,12,9205 - 9212.· Wang BL,Tian CG,Fu HG,et al. Chitosan: a green carbon source for the synthesis of graphitic nanocarbon,tungsten carbide and graphitic nanocarbon/tungsten carbide composites. Nanotechnology 21 (2010) 025606 (9pp).· Li YJ,LV RJ,Fu HG*,et al. Fabrication and evaluation of chiral monolithic column modified by β-cyclodextrin derivatives. Talanta 80 (2010) 1378–1382· Zhou W,Pan K,Fu HG*,et al. Photodegradation of organic contamination in wastewaters by bondingTiO2/single-walled carbon nanotube composites with enhanced photocatalytic activity. Chemosphere 81 (2010) 555–561.· Guohui Tian,Chen Yajie,Pan Kai,Fu Honggang*,Efficient visible light-induced degradation of phenol on N-doped anatase TiO2 with large surface area and high crystallinity. Applied Surface Science 2010,256,3740-3745.· Tian CG,Li W,Fu HG*,et al. One-pot Synthesis of the Ag Nanoparticles modified ZnO Microspheres in Ethylene Glycol Medium and Their Enhanced Photocatalytic Performance. Journal of Solid State Chemistry,2010,183,2720-2725.· Zhou W,Pan K,Fu HG*,et al. The sandwich structure electrodes based on wire-likeTiO2–β-cyclodextrin–SWCNT composite for dye-sensitized solar cells. Journal of Photochemistry and Photobiology A: Chemistry 2009,207,306–310.· Tian XQ,Wan LJ,Fu HG*,et al. Facile synthesis of mesoporous ZnAl2O4 thin films through the evaporation-induced self-assembly method. Journal of Alloys and Compounds 2009,488,320–324.· Wang RH,Tian CG,Fu HG*,et al. In situ simultaneous synthesis of WC/graphitic carbon nanocomposite as a highly efficient catalyst support for DMFCw. Chemical Communication 2009,3104-3106.· Pan QJ,Fu HG*,Zhang HX*,et al. Theoretical Studies on Metal−Metal Interaction,Excited States,and Spectroscopic Properties of Binuclear Au−Au,Au−Rh,and Rh−Rh Complexes with Diphosphine Ligands: Buildup of Complexity from Monomers to Dimers. Inorganic Chemistry,2009,48,2844–2854.· Zhou W,Pan K,Fu HG*,et al. Solar-induced Self-assembly of TiO2-β-cyclodextrin-MWCNT Composite Wires. Physical Chemistry Chemical Physics 2009,11,1713-1718.· Kang CH,Jing LQ*,Fu HG*,et al. Mesoporous SiO2-Modified Nanocrystalline TiO2 with High Anatase Thermal Stability and Large Surface Area as Efficient Photocatalyst. Journal of Physical Chemistry C 2009,113,1006–1013.· Wang BL,Tian CG,Fu HG*,et al. A simple and large-scale strategy for the preparation of Ag nanoparticles supported on resin-derived carbon and their antibacterial properties. Nanotechnology 2009,20,025603(7pp)· Tian GH,Fu HG*,Jing LQ,et al. Synthesis and photocatalytic activity of stable nanocrystalline TiO2 with high crystallinity and large surface area. Journal of Hazardous Materials 2009,161,1122-1130.· Zhang GX,Yu HT*,Fu HG,et al. First-principles calculations of the stability and electronic properties of the PbTiO3 (110) polar surface. Journal of Computational Chemistry 2009,30,1785-1798.· Tian GH,Pan K,Fu HG*,et al. Enhanced photocatalytic activity of S-doped TiO2-ZrO2 nanoparticles under visible-light irradiation. Journal of Hazardous Materials 2009,166,939-944.· Pan K,Dong YZ,Fu HG*,et al. TiO2-B narrow nanobelt/TiO2 nanoparticle composite photoelectrode for dye-sensitized solar cells. Electrochimica Acta 2009,54,7350-7356.· Kan K,Fu HG,Shi KY*,et al. Amidation of single-walled carbon nanotubes by a hydrothermal process for the electrooxidation of nitric oxide. Nanotechnology 2009,20,185502 (7pp).· Wang L,Tian CG,Fu HG*,et al. Controllable Synthesis of Graphitic Carbon Nanostructures from Ion-Exchange Resin-Iron Complex via Solid-State Pyrolysis Process. Chemical Communication 2008,5411-5413.· Zhou W,Fu HG*,Pan K,et al. Mesoporous TiO2/α-Fe2O3: Bifunctional Composites for Effective Elimination of Arsenite Contamination through Simultaneous Photocatalytic Oxidation and Adsorption. Journal of Physical Chemistry C 2008,112,19584-19589.· Liu KS,Fu HG*,Xie Y,et al. Assembly of β-Cyclodextrins Acting as Molecular Bricks onto the Multiwall Carbon Nanotubes.Journal of Physical Chemistry C 2008,112,951-957.· Tian GH,Fu HG*,Jing LQ,et al. Preparation and Characterization of Stable Biphase TiO2 Photocatalyst with High Crystallinity,Large Surface Area and Enhanced Photoactivity. Journal of Physical Chemistry C 2008,112,3083-3089.· Zhou W,Liu KS,Fu HG*,et al. Multi-modal mesoporous TiO2–ZrO2 composites with high photocatalytic activity and hydrophilicity. Nanotechnology 2008,19,035610(7pp).· Pan QJ,Zhou X,Fu HG*,et al,“Isovalent Gold(I),-(Ⅱ),and -(Ⅲ) and Mixed-Valent Gold(I)/Gold(Ⅲ) Phosphorus Ylide Complexes. Combined ab Initio and Density Functional Study of Electronic Structures and Spectroscopic Properties” Organometallics 2008,27,2474–2482.· Wan LJ,Fu HG*,Shi KY,et al. Facile synthesis of ordered nanocrystalline alumina thin films with tunable mesopore structures. Microporous and Mesoporous Materials 2008,115(3),301-307.· Pan QJ,Zhou X,Fu HG*,et al. A theoretical probe on the ground- and excited-state properties of heterobinuclear Au–Pt complex with phosphine ligands. Comparison with analogous homobinuclear Au–Au and Pt–Pt complexes. Chemical Physics Letters 2008,453,7-12.· Jing LQ*,Li SD,Fu HG*,et al. Investigation on the electron transfer between anatase and rutile in nano-sized TiO2 by means of surface photovoltage technique and its effects on the photocatalytic activity. Solar Energy Materials & Solar Cells 2008,92,1030– 1036.· Wan LJ,Fu HG*,Shi KY,et al. Facile synthesis of iron oxide with wormlike morphology and their application in water treatment. Journal of Solid State Chemistry 2008,181(4),735-740.· Chi YJ,Fu HG*,Qi LH,et al. Preparation and photoelectric performance of ITO/TiO2/CdS composite thin films. Journal of Photochemistry and Photobiology A: Chemistry 2008,195(2-3),357-363.· Xie Y,Yu HT,Fu HG*,et al. Lattice dynamics investigation on different transition behaviors of cubic BaTiO3 and SrTiO3 by first-principles calculatoins. J. Phys.: Condens. Matter,2008,20,215215 (8pp)· Wan LJ,Fu HG*,Shi KY,et al. Simple synthesis of mesoporous alumina thin films.Material Letters 2008,62(10-11),1525-1527.· Song S,Jing LQ*,Fu HG*,et al. Superhydrophilic anatase TiO2 film with the micro- and nanometer-scale hierarchical surface structure. Materials Letters 2008,62,3503–3505.· Zhu YJ,Yuan FL*,Fu HG,et al. Direct NO decomposition over La2-xBaxNiO4 catalysts containing BaCO3 phase. Appl. Catal B-Environ 2008,82,255-263.· Li MX,Zhang HX*,Fu HG,et al. Theoretical Studies of Electronic Structuresand Spectroscopic Properties of Ru Complexes. Inorg. Chem 2008 47(7),2312-2324.· Xie Y,Yu HT,Fu HG*,A First-Principles Investigation of Stability and Structural Properties of the BaTiO3 (110) Polar Surface. Journal of Physical Chemistry C,2007,111,6343-6349.· Kan W,Yu HT,Fu HG*,et al. Theoretical investigation on the protonation reactions and products of the stable [N,C,C,S] isomers,Journal of Computational Chemistry,2007,28,2472-2482.· Zhao YL,Yu HT*,Fu HG,et al. Combined DFT,QCISD(T),and G2 mechanism investigation for the reactions of carbon monophosphide CP with unsaturated hydrocarbons allene CH2CCH2 and methylacetylene CH3CCH,Journal of Computational Chemistry,2007,28,1221-1233.· Pan QJ,Zhang HX*,Fu HG,et al. Electronic Structures and Spectroscopic Properties of Mono- and Binuclear d8 Complexes: a Theoretical Exploration on Promising Phosphorescent Materials. Journal of Physical Chemistry A,2007,111(2); 287-294.· Pan QJ,Zhou X,Fu HG*,et al. Theoretical studies on spectroscopic properties of binuclear palladium(Ⅱ) halide with phosphine ligands Journal of Photochemistry and Photobiology A: Chemistry,2007,188(2-3),287-292.· Xie Y,Fu HG*,Yu HT,et al. A first-principles investigation into the ferroelectric and antiferrodistortive instabilities of cubic SrTiO3,Journal of Physics: Condensed Matter,2007,19,506213(9pp)· Pan QJ,Zhou X,Fu HG*,et alStructures and electronic spectra of [Pt2(P2O5H2)4X2]4– (X = Cl,Br and I): a comparative study of ab initio and density functional theory Inorganic Chemistry Communications 2007,10,183–186.· Li SD,Jing LQ,Fu HG*,et al. Photoinduced charge property of nanosized perovskite-type LaFeO3 and its relationships with photocatalytic activity under visible irradiation. Materials Research Bulletin 2007,42,203-212.· Yang PP,Fu HG,Lin J*,et al. MCM-41 functionalized with YVO4: Eu3+: a novel drug delivery system. Nanotechnology 2007,18,235703(6pp).· Yang PP,Fu HG,Lin J*,et al. Luminescence functionalization of SBA-15 by YVO4: Eu3+ as a novel drug delivery system. Inorg. Chem. 2007,46,3202-3211.· Jing LQ,Fu HG*,Wang BQ,et al. Effects of Sn dopant on the photoinduced charge property and photocatalytic activity of TiO2 nanoparticles. Applied Catalysis B,2006,62,282-291.· Jing LQ,Xin BF,Fu HG*,et al. Effects of Surface Oxygen Vacancies on Photophysical and Photochemical Processes of Zn-Doped TiO2 Nanoparticles and Their Relationships. Journal of Physical Chemistry B2006,110,17860-17865.· Pan QJ,Fu HG*,Yu HT,et al. A Theoretical Insight Into Electronic Structures and Spectroscopic Properties of [Pt2(pop)4]4–,[Pt2(pcp)4]4– and Related Derivatives (pop = P2O5H22– and pcp = P2O4CH42–) Inorganic Chemistry,2006,45(21),8729–8735.· Liu KS,Zhou W,Fu HG*,et al. Influence of calcination temperatures on the photocatalytic activity and photo-induced hydrophilicity of wormhole-like mesoporous TiO2. Nanotechnology 2006,17,1363-1369.· Liu KS,Fu HG*,Shi KY,et al. Hydrophilicity and formation mechanism of large-pore mesoporous TiO2 thin films with tunable pore diameters. Nanotechnology 2006,17,3641-3648.· Pan QJ,Zhang HX*,Fu HG,et al “Theoretical Studies on Metal–Metal Interaction and Intrinsic 1,3[σ*(d)σ(s/p)] Excited States of Binuclear d10 Complexes with Bridging Phosphine Ligands” European Journal of Inorganic Chemistry 2006 (5),1050-1059.· Jing LQ,Wang DJ,Fu HG*,et al. Effects of noble metal modification on surface oxygen composition,charge separation and photocatalytic activity of ZnO nanoparticles. Journal of Molecular Catalysis A 2006,244,193-200.· Pan QJ,Fu HG*,Yu HT,et al Substituent effect on the structure and luminescence of binuclear Au(I) complexes: An ab initio study. Chemical Physics Letters 2006,426(4-6),257-262.· Jing LQ,Qu YC,Fu HG*,et al. Review of photoluminescence performance of nano-sized semiconductor materials and its relationships with photocatalytic activity. Solar Energy Materials & Solar Cell 2006,90,1773-1787.· Pan QJ,Fu HG*,Yu HT,et al Spectroscopic Properties of Mono- and Binuclear Platinum(Ⅱ) Alkynyl Complexes with Phosphine Ligands: A Theoretical StudyInorganica Chimica Acta 2006,359(10),3306–3314.· Wang BQ,Jing LQ,Fu HG*,et al. Enhancement of the photocatalytic activity of TiO2 nanoparticles by surface-capping DBS groups. Applied Surface Science 2006,252,2817-2825.· Liu KS,Zhang ML,Fu HG*,et al. Uniform TiO2 thin films with anatase nanocrystallites synthesized through evaporation-induced assembly. Journal of Non-Crystalline Solids 2006,352,2284–2287.· Liu KS,Fu HG*,Shi KY,et al. Preparation of large-pore mesoporous nanocrystalline TiO2 thin films with tailored pore diameters. Journal of Physical Chemistry B 2005,109 (40),18719-18722.· Shi KY,Chi YJ,Fu HG*,et al. Controlled growth of mesostructured crystalline iron oxide nanowires and Fe-filled carbon nanotube arrays templated by mesoporous silica SBA-16 film. Journal of Physical Chemistry B2005,109 (7),2546-2551.· Xin BF,Jing LQ,Fu HG*,et al. Effects of simultaneously doped and deposited Ag on the photocatalytic activity and surface states of TiO2. Journal of Physical Chemistry B2005,109,2805-2809.· Liu KS,Zhang ML,Fu HG*,et al. Preparation,characterization,and photo-induced hydrophilicity of nanocrystalline anatase thin films synthesized through evaporation-induced assembly. Nanotechnology 2005,16,3006-3011.· Xin BF,Ren ZY,Fu HG*,et al. Photocatalytic activity and interfacial carrier transfer of Ag–TiO2 nanoparticle films. Applied Surface Science 2005,252,2050–2055.· Liu KS,Zhang ML,Fu HG*,et al. Large pore mesoporous nanocrystalline titania thin films synthesized through evaporation-induced self-assembly. Materials Letters 2005,59,3308 -3310.
blackiron.sh
History of computer development, and future development areas Firstly. the Introduction to Computer History Computational tools used by human beings, with the development of production and social progress, from simple to complex, from lower to higher development, computational tools have emerged, such as abacus, slide rule, hand mechanical computers, electrical machinery and computer . In 1946, the world's first electronic digital computer (ENIAC) was born in the United States. This computer has more than 18,000 shared power in the tubes, an area of 170m2, the total weight of 30t, power 140kw, computing speed of the 5000 additions per second, 300 times multiplication. In just 50 years after the tubes, transistors, integrated circuits (IC) and ultra large scale integration (VLSI) four stages of development, computer has become smaller and smaller, more powerful, more and more widely,and its price is also getting lower and lower, currently moving intelligence (fifth generation) computer direction. 1. The first generation of computer The first generation of electricity in the computer is from 1946 to 1958. They are larger, lower operation speed, storage capacity is small and expensive. Not easy to use, in order to solve a problem, the complexity of programmed elusive. This generation is mainly used for scientific computing, scientific research only in the key sectors or departments. 2. Second-generation computer Second-generation computer is from 1958 to 1965, they all use the transistor as an electronic device, the operation speed than the first generation of faster computers in recent times, the volume of several one-tenth of the original. In terms of software to start using computer algorithms language. This generation not only for scientific computing, but also for data processing and transaction processing and industrial control. 3. Third-generation computer The third generation of computer is from 1965 to 1970. The main characteristics of this period is, the small-scale integrated circuits for electronic devices, and operating system appears to make more powerful computers, applications and more wide. They not only used for scientific computing, but also for word processing, business management, automatic control and other fields, there has been computer technology and communication technology combines information management system for production management, traffic management, information retrieval and other fields. 4. Fourth generation computer Is the fourth generation of computers since 1970 using large scale integration (LSI) and ultra large scale integration (VLSI) electronic devices made of the main computer. For example, 80386 microprocessor, in an area of about 10mm X l0mm a single chip, can be integrated about 32 million transistors. The fourth generation of computers is another important branch of a large-scale, VLSI-based microprocessors and develops miniature computer. 5. Fifth Generation Computer Fifth generation computer will information collection, storage, processing, communications, and artificial intelligence combined with a form of reasoning, associative learning and interpretation skills. Its architecture will break the traditional von Neumann machine concept • to achieve a high degree of parallel processing. Secondly, the development direction of the computer Future computers will be based on ultra large scale integrated circuits, the giant, miniaturization, networked and intelligent direction. 1. Giant of Giant of the computer's processing speed is higher, greater storage capacity, more powerful. Supercomputer is currently being developed by the operation speed of up to tens of billions of times per second. 2. Miniaturization Micro-computer has access to instruments, meters, household appliances and other equipment in small, but also as an industrial control process of the heart, so that equipment to achieve "intelligent." With the further development of microelectronics technology, notebook, handheld and other micro-computer in order to better cost performance will be popular. 3. Network With the depth of computer applications, in particular increasing popularity of home computers, one hope that many users to share information resources, it also hoped to transmit information between computers can communicate with each other. Computer networks of modern communications technology and the result of combining computer technology. Computer networks in the modern enterprise management has been playing an increasingly important role, such as banking systems, business systems, transportation systems. 4. Intelligent Artificial intelligence research is based on modern scientific basis. Intelligence is an important direction of computer development, a new generation of computers will be able to simulate the feeling of human behavior and thought process of the mechanism, to "see", "Listen," "said" "wish," "do" with the logic reasoning, learning and proven ability.
偶是杨洋
1990年以来发表的论文(Eng.):新世纪1. Surface-modified Graphite as an improved intercalating Anode for Lithium ion Batteries,Y.Cao, L.Xiao, e t.a l,Electrochem. & Solid State Lett. , 6 (2003).A30-A332. Possible use of ferrocyanide as a redox additive for prevention of electrolyte decomposition in overcharged nickel batteries, Electrochem. Acta, (2003)3. Temperature Effects on the Electrodeposition of Zinc,J.X.Y u, L.Wang e t.a l ,J. Electrochem. Soc., 150 (2003) 1.4. Hydrogen production from catalyzed hydrolysis of sodium borohydride solution using nickel boride catalyst,H.Dong, H.Yang e t.a l,Int. J. Hydrogen Energy 28 (2003)10955. A Mechanistic Study of Electrocatalytic Reduction of Oxygen on Manganese Dioxides in Alkaline Aqueous Solution, Y. L. Cao, H. X. Yang*, X. P. Ai, and L .F .Xiao, J. Electroanal. Chem.,(2003) ,6. Structural and electrochemical characterization of calcium zincate mechanochemically synthesized as rechargeable anodic materials,X.Zhu, H. Yang, X. Ai, J. Yu and Y. Cao, J. 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Letters, 2, (1991)329 1990年以来发表的论文(中文):21世纪1. 联苯用作锂离子电池过充保护剂的研究, 肖利芬, 艾新平, 曹余良, 杨汉西, 电化学, 9(1), 23(2003)2. 塑料化聚合物电解质的导电性质, 艾新平,董全峰,杨汉西, 电池,32(S1), 48(2002)3. 尖晶石型ZnMn_2O_4的合成及其电化学行为, 李升宪,李保旗,杨汉西,艾新平, 电池,32, 3( 2002)4. 锌酸钙的制备与电化学性能研究, 喻敬贤,杨汉西,朱晓明,艾新平, 电池, 31(2) 65(2001)5. 圆柱型锌空气电池研究, 李升宪,周贵茂,艾新平,杨汉西, 电化学,6(3), 341(2000).6. 塑料化薄膜锂离子电池的制造技术, 艾新平,洪昕林,董全峰,李升宪,杨汉西, 电化学, 6(2), 193(2000)上世纪90年代7. LiMn2O4正极在高温下性能衰退现象的研究, 胡晓宏,杨汉西,艾新平,李升宪,洪昕林, 电化学, 5(2), 224(1999)8. 纳米光亮镀锌层的结构研究, 喻敬贤,陈永言,黄清安,杨汉西, 高等学校化学学报,20(1),107 (1999)9. 添加剂对锌结晶行为的影响及参数的演化优化, 化学学报, 57,953(1999)10. 锡基非晶态材料的化学合成及其嵌锂性能的初步研究, 刘立,杨汉西,孙聚堂,艾新平, 电化学,4(4), 362 (1998)11. 石墨负极锂嵌碳机理的研究, 周震涛,黄静,汪国杰,艾新平,杨汉西,, 华南理工大学学报(自然科学版) 1998年07期12. 贮氢合金用作有机加氢反应新型催化剂研究进展, 卢世刚,杨汉西,杨聪智, 化学通报 12, 1(1998)13. 电阻应变法用于密封电池内压变化的动态检测, 杨汉西, 胡容辉,艾新平,杨聪智,李升宪, 电化学, 4(3), 318(1998)14. 薄膜塑料锂离子电池的初步研究, 董全峰, 杨汉西, 艾新平, 胡晓宏,李升宪, 电化学, 4(1), 9(1998)15. 电化学制备Ni-Cu/Cu超晶格多层膜, 喻敬贤,陈永言,黄清安,杨汉西, 武汉大学学报(自然科学版) 1998年06期16. 氢气在贮氢合金电极上析出反应机理的研究, 卢世刚,李群,刘庆国,路春,党兵,杨汉西, 电化学,4(3),265 (1998)17. 非水介质中Zn-MnO_2的可充性研究, 李保旗,杨汉西,李升宪,杜米芳,艾新平, 电化学,3(3), 277 (1997)18. 泡沫镍的电沉积制备技术, 何细华,胡蓉晖,杨汉西,左正忠, 电化学,2(1), 66 (1996)19. 微电极定量方法评价贮氢合金的电化学性质, 胡蓉晖,杨汉西,刘金成,李升宪,查全性, 电化学,2(4), 391(1996)20. 贮氢合金电极的活化方法和作用机理研究, 胡蓉晖,杨汉西,卢世刚,李升宪,刘金城,杨聪智, 电化学,2(2), 170 (1996)21. 电沉积泡沫铜, 何细华,左正忠,杨汉西, 材料保护 1996年11期22. 无氟微酸性体系镀铅研究, 何细华,左正忠,杨汉西, 电镀与环保 1995年05期23. 贮氢合金用作硝基苯电解加氢的催化电极研究, 卢世刚,杨汉西,王长发, 电化学, 1(1), 15(1995)24. 金属氢化物-镍电池充电过程消气反应研究, 刘金城, 杨汉西, 胡蓉辉, 吴锋, 电源技术, 19(4), 1(1995)25. 超薄层红外光透电解池的设计和应用, 肖以金,杨汉西,查全性,, 分析化学 1994年02期26. 电化学石英晶体微天平对银电极氧化还原过程的研究, 陈胜利, 吴秉亮, 杨汉西, 高等学校化学学报, 15(1), 103(1994)27. 炭材料作为储锂负极的研究, 杨汉西, 雷鸣,李升宪,艾新平, 应用化学, 10(1), 113(1993)28. Li/SOCl2 电池的拉曼光谱电化学研究, 钟发平, 杨汉西, 查全性等, 高等化学学报, 14, 265(1993)29. 简易多功能光谱电化学池的设计, 肖以金, 杨汉西, 冯之刚, 伏亚萍, 光谱学与光谱分析, 13(6), 103(1993)30. 激光拉曼光谱的光纤采样技术, 钟发平, 吴国帧, 杨汉西等, 光谱学与光谱分析, 13(6), 29(1993)31. 甲基吡啶电氧化过程的表面增强RAMAN光谱研究, 钟发平, 杨汉西, 查全性, 化学学报, 51, 273(1993)32. 阴极限制型Li/SOCl2电池过放电产物的热分析, 肖以金, 杨汉西, 查全性, 应用化学, 10(3), 54(1993)33. C60 电化学还原的稳态性质研究,杨汉西, 肖以金, 朱凌等, 物理化学学报, 8, 580(1992)34. 微型拉曼电解池现场研究硫酰氯的电化学还原, 钟发平, 杨汉西, 徐知三, 查全性, 物理化学学报, 8, 266(1992)35. 锌离子在λ-MnO2中的电化学嵌入, 吴智远, 杜米芳, 杨汉西等, 应用化学, 9(2), 99(1992)36. 锂电化学嵌入尖晶石二氧化锰研究, 吴智远, 杨汉西, 石中等, 电池, 22(1), 13(1992)37. 锂离子电池炭负极研究, 杨汉西, 艾新平, 雷鸣, 李升宪, 电源技术, 5, 2(1992)38. MnO2作为二次锂电池阴极材料研究, 李升宪, 杨汉西, 吴智远, 汪振道, 电源技术, 4, 7(1991)39. AA-型Li/λ-MnO2 二次电池研究, 李升宪, 杨汉西, 吴智远等, 电池,21(5), 10(1991)40. 锂/硫酰氯电池体系的初步研究, 杨汉西,钟发平, 汪振道等, 电源技术, 2, 5(1990)41. 大功率锂/亚硫酰氯电池高效炭阴极研究, 汪振道, 杨汉西, 范玉章, 雷鸣, 电源技术, 1, 3(1990)
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