赵光宇科研成果

基本信息 科学研究 教育教学 论文专著 新建主栏目 基本信息 名称 赵光宇，男，汉族，1981年生，副教授，博士生导师； 化工院化学与能源材料研究所； 主要从事化学电源（锂/钠离子电池、结构储能材料、电池无损诊断，电池回收再利用）方面的研究工作； 在Adv. Energy Mater.，Adv. Funct. Mater.，Nano Energy, Chem. Mater., 等化学或电化学专业期刊上发表学术论文70余篇。 工作经历 名称 时间 工作经历 2016.04～ 哈尔滨工业大学，副教授，博士生导师 2014.01～ 哈尔滨工业大学，副教授，硕士生导师 2008.06～2013.12 哈尔滨工业大学，讲师 教育经历 名称 2003年-2008年, 就读于兰州大学化学化工学院，博士 1999年-2003年, 就读于兰州大学化学化工学院，本科 荣誉称号 名称 国家部委奖励二等奖（2006） 宝钢教育奖（2008） 教育部科技进步一等奖（2017） 黑龙江省自然科学三等奖（2021） 科研项目 项目名称 国基自然科学基金面上项目 项目来源 开始时间 2018.01 结束时间 2021.12 项目经费 80万 担任角色 负责 项目类别 纵向项目 项目状态 完成 简单介绍 项目名称 国家自然科学基金 项目来源 开始时间 2010-01-01 结束时间 2012-12-01 项目经费 19万 担任角色 负责 项目类别 纵向项目 项目状态 完成 简单介绍 项目名称 中国博士后科学基金面上资助 项目来源 开始时间 2009-09-01 结束时间 2012-09-01 项目经费 3万 担任角色 负责 项目类别 纵向项目 项目状态 完成 简单介绍 项目名称 中国博士后科学基金特别资助 项目来源 开始时间 2010-11-01 结束时间 2013-11-01 项目经费 10万 担任角色 负责 项目类别 纵向项目 项目状态 完成 简单介绍 项目名称 哈尔滨工业大学理工医 交叉学科基础研究培育计划 项目来源 开始时间 2014-06-01 结束时间 2016-06-01 项目经费 10万 担任角色 负责 项目类别 纵向项目 项目状态 完成 简单介绍 项目名称 黑龙江省博士后科研启动金 项目来源 开始时间 2014-11-01 结束时间 项目经费 10万 担任角色 负责 项目类别 横向项目 项目状态 进行中 简单介绍 研究领域 名称 1.可见光催化辅助的锂空气电池 正极催化剂的催化能力和稳定性是影响锂氧气电池性能的重要因素。本项目提出一种使用全钛正极的可见光光电催化锂氧电池，利用光电催化的高催化能力和全钛电极的稳定性提高电池性能，并研究这种全新结构电池的工作原理。首先，在泡沫Ti上原位生长Ti3%2B掺杂TiO2包覆的金属Ti核壳纳米线阵列作为光电催化正极，探索光电催化锂氧电池的测试方法；第二，研究阵列电极在可见光光电催化下的锂氧电池性能和电极过程；第三，通过仪器分析与理论计算相结合，分析光电催化锂氧电池的电极反应机理。本工作将光能直接应用到二次化学电源中，提出一种全新的光电催化锂氧电池，并为其设计了一种全钛核壳纳米线阵列电极；Ti3%2B掺杂的TiO2层使电极拥有可见光光电催化能力，金属Ti核心提供的电子通道保证了光生电子和空穴的快速分离，有利于光电催化反应的高效进行；全钛结构则保障了电极在锂氧电池苛刻工况下的稳定性。 2. 高稳定性锂电负极材料的制备与性能研究性能研究 Si以其4200mAh/g的理论比能量一直是锂电负极材料的研究热点，而其在充放电过程中超过400%的体积膨胀所导致的活性物质剥离使Si负极材料的循环性能难以达到应用要求。我们通过原位制备Si多孔薄膜及石墨烯复合纳米Si的方法为其在充放电过程中提供足够多的容胀空间来提高材料的循环稳定性。结果表明我们制备的新型Si材料有效地改善了其作为电池负极的多种性能。其中，通过电化学原位制备的Si薄膜无碳无粘结剂电极更是达到了2800mAh/g的比容量循环80圈几乎不衰减的水准，此性能已经达到了国内领先的水平。文章发表在Journal ofPower Sources等杂志上。在Si基负极材料领域本人作为第一负责人承担了国家博士后特别资助，国家博士后面上资助和省博士后面上资助等项目经费。在此锂电负极材料研究的基础上，2013年作为主要参与人完成了工业与信息化部产业化项目“钛酸锂锂电负极材料的产业化”，与江苏华富控股集团共同推进了我国高稳定性钛酸锂负极材料的产业化步伐。 讲授课程 名称 大学化学（国家精品课）教学团队成员 招生信息 名称 硕士招生:应用化学专业 博士招生： 化学工程与技术 论文期刊 名称 paper 2023年 77. Xiaoming Bai, Guangyu Zhao,* Guiye Yang, Ming Wang, Zhaoyu Chen, Naiqing Zhang，Titanium-Oxygen Clusters Brazing Li with Li6.5La3Zr1.5Ta0.5O12 for High-Performance All-Solid-State Li Batteries，Nano Letters，2023，doi.org/10.1021/acs.nanolett.3c01731 76. Ming Wang, Guangyu Zhao,* Xiaoming Bai, Weijian Yu, Chenghao Zhao, Zhenren Gao, Pengbo Lyu, Zhaoyu Chen, and Naiqing Zhang, Gradient Concentration Refilling of N Stabilizes Oxygen Vacancies for Enhanced Zn2%2B Storage, Adv. Energy Mater. 2023, 2301730 75. Ming Wang, Guangyu Zhao,* Xianbo Yu, Xiaoming Bai, Aosai Chen, Chenghao Zhao, Pengbo Lyu, Naiqing Zhang, Reconstructing fast ion transport channels of Zn3V2O7 (OH)2·2H2O to realize enhanced Zn2%2B storage performance, Nano Energy, 2023, 110, 108336 2022年 74. Canlong Wu, Li Zhang, Guangyu Zhao,* Xianbo Yu, Chao Liu, Junjie He, Kening Sun, Naiqing Zhang，Interlayer-Expanded MoS2 Containing Structural Water with Enhanced Magnesium Diffusion Kinetics and Durability，ChemElectroChem，2022，doi.org/10.1002/celc.202100879. 73. Yu, Xianbo; Zhao, Guangyu;* Huang, Huihuang; Liu, Chao; Lyu, Pengbo; Zhang,Naiqing,Interlayer-expanded MoS2 nanoflowers anchored on the graphene: A high-performance Li%2B/Mg2%2B co-intercalation cathode material, CHEMICAL ENGINEERING JOURNAL,2022，428，131214，10.1016/j.cej.2021.131214 72.Huang, Huihuang; Zhao, Guangyu;* Yu, Xianbo; Shen, Xiaojie; Wang, Ming; Bai, Xiaoming; Zhang, Naiqing, V-doped T-Nb2O5 toward high-performance Mg2%2B/Li%2B hybrid ion batteries, JOURNAL OF MATERIALS CHEMISTRY A,10，577-584，DI 10.1039/d1ta09231f 71.Zhang, Li; Bai, Xiaoming; Zhao, Guangyu;* Shen, Xiaojie; Liu, Yufei; Bao, Xiyang; Luo, Jing; Yu, Liping; Zhang, Naiqing,A visible light illumination assistant Li-O-2 battery based on an oxygen vacancy doped TiO2 catalyst, ELECTROCHIMICA ACTA, 405，139794，DOI 10.1016/j.electacta.2021.139794 70. Le, Shiru; Yan, Baozexi; Mao, Yachun; Chi, Dazhao; Zhu, Min; Jia, Hongyu; Zhao, Guangyu; Zhu, Xiaodong; Zhang, Naiqing,N-doped ?-MnO2 coated N-doped carbon cloth as stable cathode for aqueous zinc-ion batteries, INTERNATIONAL JOURNAL OF ELECTROCHEMICAL SCIENCE 2022，18，DI 10.1016/j.ijoes.2023.01.003 2021年 69 Interlayer-expanded MoS2 nanoflowers anchored on the graphene: A high-performance Li%2B/Mg2%2Bco-intercalation cathode material, Xianbo Yu Guangyu Zhao* Huihuang Huang Chao Liu Pengbo Lyu Naiqing Zhang,CHEMICAL ENGINEERING JOURNAL428(2022)121314 68 A MoS2 and Graphene Alternately Stacking van der Waals Heterostructure for Li%2B/Mg2%2B Co-Intercalation，Yu, Xianbo; Zhao, Guangyu*; Liu, Chao; 等.ADVANCED FUNCTIONAL MATERIALS 文献号: 2103214 在线发表日期: JUL 2021 67 MoS2/graphene heterostructure with facilitated Mg-diffusion kinetics for high-performance rechargeable magnesium batteries作者: Wu, Canlong; Zhao, Guangyu*; Yu, Xianbo; 等.CHEMICAL ENGINEERING JOURNAL 卷: 412 文献号: 128736 出版年: MAY 15 2021 66 A material of hierarchical interlayer-expanded MoS2 nanosheets/hollow N-doped carbon nanofibers as a promising Li%2B/Mg2%2B co-intercalation host作者: Yu, Xianbo; Zhao, Guangyu*; Liu, Chao; 等.JOURNAL OF MATERIALS CHEMISTRY A 卷: 9 期: 19 页: 11545-11552 出版年: MAY 21 2021 65 A hybrid Mg2%2B/Li%2B battery based on high-capacity conversion-type cobalt disulfide cathodes with ultralong cycle life and high energy density作者: Liu, Chao; Zhao, Guangyu;* Zhang, Li; 等.CHEMICAL ENGINEERING JOURNAL 卷: 405 文献号: 126726 出版年: FEB 1 2021 2020年 64 Self-supported PPy-encapsulated CoS2 nanosheets anchored on the TiO2-x nanorod array support by Ti-S bonds for ultra-long life hybrid Mg2%2B/Li%2B batteries作者: Liu, Chao; Zhao, Guangyu;* Zhang, Li; 等.JOURNAL OF MATERIALS CHEMISTRY A 卷: 8 期: 43 页: 22712-22719 出版年: NOV 21 2020 63 CuO-C modified glass fiber films with a mixed ion and electron-conducting scaffold for highly stable lithium metal anodes作者: Shen, Xiaojie; Zhao, Guangyu*; Fan, Lishuang; 等.JOURNAL OF MATERIALS CHEMISTRY A 卷: 8 期: 42 页: 21961-21967 出版年: NOV 14 2020 62 Design of MoS2/Graphene van der Waals Heterostructure as Highly Efficient and Stable Electrocatalyst for Hydrogen Evolution in Acidic and Alkaline Media作者: Yu, Xianbo; Zhao, Guangyu*; Gong, Shan; 等.ACS APPLIED MATERIALS & INTERFACES 卷: ？ 12 期: 22 页: 24777-24785 出版年: JUN 3 2020 2019年 61 A non-enzymatic glucose sensor with enhanced anti-interference ability based on a MIL-53(NiFe) metal-organic framework作者: Zhang, Li; Ma, Xiaoni; Liang, Hongbo; Huihui Linb and Guangyu Zhao*.JOURNAL OF MATERIALS CHEMISTRY B 卷: 7 期: 44 页: 7006-7013 出版年: NOV 28 2019 60 Two-dimensional Nb2O5 holey nanosheets prepared by a graphene sacrificial template method for high performance Mg2%2B/Li%2B hybrid ion batteries作者: Huang, Huihuang; Zhao, Guangyu*; Zhang, Naiqing; 等.NANOSCALE 卷: 11 期: 35 页: 16222-16227 出版年: SEP 21 2019 59 A highly stable glass fiber host for lithium metal anode behaving enhanced coulombic efficiency作者: Shen, Xiaojie; Zhao, Guangyu*; Sun, Kening，ELECTROCHIMICA ACTA 卷: 317 页: 333-340 出版年: SEP 10 2019 58 Chemical Mass Production of MoS2/Graphene van der Waals Heterostructure as a High-Performance Li-ion Intercalation Host作者: Gong, Shan; Zhao, Guangyu*; Zhang, Naiqing; 等.CHEMELECTROCHEM 卷: 6 期: 13 页: 3393-3400 出版年: JUL 1 2019 57Capacitive Behavior Based on the Ultrafast Mass Transport in a Self-Supported Lithium Oxygen Battery Cathode Guangyu Zhao*,Yufei Liu,Lei Tang,Li Zhang*，Kening Sun ACS APPLIED ENERGY MATERIALS 卷: 2 期: 3 页: 2113-2121 出版年: MAR 2019 56 PVP incorporated MoS2 as a Mg ion host with enhanced capacity and durability Wu Canlong Zhao Guangyu* Shan Gong, Naiqing Zhang and Kening Sun，Journal of Materials Chemistry A，JOURNAL OF MATERIALS CHEMISTRY A 卷: 7 期: 9 页: 4426-4430 出版年: MAR 7 2019 55 A vertically aligned CuO nanosheet film prepared by electrochemical conversion on Cu-based metal-organic framework for non-enzymatic glucose sensors, Li Zhang, Hongbo Liang, Xiaoni Ma, Chen Ye, Guangyu Zhao*, Microchemical Journal, 146(2019),479-485 54 Insights into the intrinsic capacity of interlayer-expanded MoS2 as a Li-ion intercalation host, Gong, Shan; Zhao, Guangyu*;Lyu, Pengbo;Sun, Kening, Journal of Materials Chemistry A, 7(2019),1187-1195 53 Hierarchically porous delta-manganese dioxide films prepared by an electrochemically assistant method for Mg ion battery cathodes with high rate performance, Wu Canlong; Zhao Guangyu* ;Bao Xiyang; Chen Xuan,Journal of Alloys and Compounds770(2019), 914-919 2018年 52 A CuNi/C Nanosheet Array Based on a Metal-Organic Framework Derivate as a Supersensitive Non-Enzymatic Glucose Sensor, Zhang, Li; Ye, Chen ; Li, Xu; Ding, Yaru;Liang, Hongbo;Zhao, Guangyu, nano-micro letters, 10(2018),28 51 A Pseudolayered MoS2 as Li-Ion Intercalation Host with Enhanced Rate Capability and Durability, Gong, Shan; Zhao, Guangyu*;Lyu, Pengbo;Sun, Kening, SMALL, 14(2018),1803344 50 Nanoflake delta-MnO2 deposited on carbon nanotubes-graphene-Ni foam scaffolds as self-standing three-dimensional porous anodes for high-rate-performance lithium-ion batteries, Zhai, Xue ; Mao, Zhu ; Zhao, Guangyu; Rooney, David ; Zhang, Naiqing ; Sun, Kening, JOURNAL OF POWER SOURCES, 402(2018), 373-380 49 A self-supported metal-organic framework derived Co3O4 film prepared by an in-situ electrochemically assistant process as Li ion battery anodes Zhao, Guangyu; Sun, Xin ; Zhang, Li; Chen, Xuan;Mao, Yachun ;Sun, Kening JOURNAL OF POWER SOURCES, 389(2018), 8-12 48 Well-developed capacitive-capacity of metal-organic framework derived Co3O4 films in Li ion battery anodes, Zhao, Guangyu; Tang, Lei; Zhang, Li, et.al. , JOURNAL OF ALLOYS AND COMPOUNDS, 746(2018), 277-284 2017年 47 Ti@MoSx core-shell nanowire arrays as self-supported electrodes for hydrogen evolution reaction, Liu, Chao; Zhao, Guangyu*; Sun, Kening, INTERNATIONAL JOURNAL OF HYDROGEN ENERGY 42(2017): 30646-30652 46. A practical Li ion battery anode material with high gravimetric/volumetric capacities based on T-Nb2O5/graphite composite Guangyu Zhao, Li Zhang, Changle Li, Huihuang Huang, Xin Sun, Kening SunChemical Engineering Journal 328 (2017) 844–852 （IF=6.216) 45. T-Nb2O5 quantum dots prepared by electrodeposition for fast Li ion intercalation/deintercalation Guangyu Zhao, Chen Ye, Li Zhang, Changle Li and Kening Sun Nanotechnology 28 (2017) 215101 (6pp) （IF=3.44) 44. Electrodeposition of ultra-long copper nanowires on a titanium foil electrode for nonenzymatic voltammetric sensing of glucose Li Zhang, Yaru Ding, Ranran Li, Chen Ye, Guangyu Zhao, Yan Wang Microchimica Acta 184 (2017) 2837–2843 （IF=4.580）43. Ni-Based metal–organic framework derived Ni@C nanosheets on a Ni foam substrate as a supersensitive non-enzymatic glucose sensor Li Zhang, Yaru Ding, Ranran Li, Chen Ye, Guangyu Zhao, Yan Wang Journal of Materials Chemistry B 5 (2017) 5549-5555 （IF=4.543） 42. A molten Mg corrosion method for preparing porous Ti foam as self-supported Li-O-2 battery cathodes Guangyu Zhao, Li Zhang, Yanning Niu，Kening Sun Electrochimica Acta 224(2017) 64–70（IF=4.798） 2016年 41. Ti@δ-MnO2 core-shell nanowire arrays as self-supported electrodes of supercapacitors and Li ion batteries Guangyu Zhao, Dong Zhang, Li Zhang, Kening Sun Electrochimica Acta 202 (2016) 8–13 （IF=4.798） 40. Vertically aligned graphitic carbon nanosheet arrays fabricated from graphene oxides for supercapacitors and Li–O2 batteries Guangyu Zhao, Li Zhang, Jixian Lv, Changle Li and Kening Sun Chemical Communications, 2016, DOI: 10.1039/C6CC01418F （IF=6.319) 39. Enhanced durability of Li？O2 batteries employing vertically standing Ti nanowire array supported cathodes Guangyu Zhao, Li Zhang, Yanning Niu, Kening Sun and David Rooney， Journal of Materials Chemistry A, 2016, 4, 4009–4014 （IF=8.867） 38. A graphitic foam framework with hierarchical pore structure as self-supported electrodes of Li–O2 batteries and Li ion batteries Guangyu Zhao, Li Zhang, Jixian Lv, Changle Li and Kening Sun, Journal of Materials Chemistry A, 2016, 4, 1399–1407 （IF=8.867） 2015年 37. “Sea cucumber”-like Ti@MoO3 nanorod arrays as self-supported lithium ion battery anodes with enhanced rate capability and durability Guangyu Zhao, Changle Li, Li Zhang, Jixian Lv, Yanning Niu , Ying Du, kening sun, Journal of Materials Chemistry A, 2015,3, 22547-22551 （IF=8.867） 36. Cuprous oxide as Cathode Catalysts of Lithium Oxygen Batteries Guangyu Zhao, Li Zhang, Baoyu Wang , Kening Sun, Electrochimica Acta，2015, 184，117-123（IF=4.798） 35. Pushing the Limits: 3D Layer-by-Layer-Assembled Composites for Cathodes with 160 C Discharge Rates Runwei Mo , Siu On Tung , Zhengyu Lei , Guangyu Zhao , Kening Sun , and Nicholas A. Kotov, ACS nano，2015, 9, 5009–5017（IF=13.942) 34. Self-supported porous CoOOH nanosheet arrays as a non-enzymatic glucose sensor with good reproducibility Li Zhang, Chunli Yang, Guangyu Zhao, Jianshuai Mu, Yan Wang, Sensors and Actuators B: Chemical，2015, 210, 190-196（IF=5.401） 33. Freestanding Cu nanowire arrays on Ti/Cr/Si substrate as tough nonenzymatic glucose sensors Li Zhang, Junyi Zhang, Chunli Yang, Guangyu Zhao, Jianshuai Mua and Yan Wang, RSC advances， 2015,5, 82998-83003（IF=3.108） 2014年 32. Enhanced cyclability of Li-O2 batteries based on TiO2 supported cathodes with no carbon or binder Guangyu Zhao, Runwei Mo, Baoyu Wang, Li Zhang, Kening Sun, Chemistry of Materials，2014, 26, 2551–2556（IF=9.466) 31. Carbon and binder free rechargeable Li-O2 battery cathode with Pt/Co3O4 flake arrays as catalyst Guangyu Zhao, Jixian Lv, Zhanming Xu, Li Zhang, Kening Sun, Journal of Power Sources, 2014, 248, 1270-1274（IF=6.395） 30. Free-standing Pt@RuO2·xH2O nanorod arrays on Si wafers as electrodes for methanol electro-oxidation Guangyu Zhao, Li Zhang, Kening Sun, Hulin Li, Journal of Power Sources, 2014, 245, 892-897（IF=6.395） 29. Ruthenium oxide modified titanium dioxide nanotube arrays as carbon and binder free lithium air battery cathode catalyst Guangyu Zhao , Yanning Niu, Li Zhang, Kening Sun, Journal of Power Sources, 2014, 270, 386-390（IF=6.395） 28. The crystal plane effect on the peroxidase-like catalytic properties of Co3O4 nanomaterials Jianshuai Mu, Li Zhang, Guangyu Zhao, Yan Wang, Physical Chemistry Chemical Physics，2014,16, 15709-15716（IF=4.123） 2013年 27. Electrochemical preparation of porous MoO3 film with a high rate performance as anode for lithium ion batteries Guangyu Zhao, Naiqing Zhang, Kening Sun, Journal of Materials Chemistry A，2013,1, 221-224 （IF=8.867 ） 26. Hierarchical porous Co3O4 films as cathode catalysts of rechargeable Li–O2 batteries Guangyu Zhao, Zhanming Xu, Kening Sun, Journal of Materials Chemistry A，2013,1, 12862-12867 （IF=8.867） 25. Decoration of graphene with silicon nanoparticles by covalent immobilization for use as anodes in high stability lithium ion batteries Guangyu Zhao, Li Zhang, Yufeng Meng, Naiqing Zhang, Kening Sun, Journal of Power Sources, 2013, 240, 212-218（IF=6.395) 24. Hierarchical porous Co3O4 films with size-adjustable pores as Li ion battery anodes with excellent rate performances Guangyu Zhao, Zhanming Xu, Li Zhang, Kening Sun, Electrochimica Acta, 2013, 114，251-258（IF=4.798） 23. Capacitive contribution to lithium storage capacity in porous MoO3 films Guangyu Zhao, Li Zhang, Kening Sun, Journal of Electroanalytical Chemistry, 2013, 694, 61-67（IF=3.012) 22. High storage performance of core–shell Si@C nanoparticles as lithium ion battery anodematerial Guangyu Zhao, Li Zhang, Yufeng Meng, Naiqing Zhang, Kening Sun, Materials Letters, 2013, 96, 170-173（IF=2.572) 21. Preparation of NiO/multiwalled carbon nanotube nanocomposite for use as the oxygen cathode catalyst in rechargeable Li–O2 batteries Guangyu Zhao, Li Zhang, Tong Pan, Kening Sun Journal of Solid State Electrochemistry, 2013,17, 1759-1764（IF=2.316) 20. Porous MoO3 films with ultra-short relaxation time used for supercapacitors Guangyu Zhao, Naiqing Zhang, Kening Sun, Materials Research Bulletin, 2013, 48, 1328-1332（IF=2.446) 19. Polyaniline nanowire electrodes with high capacitance synthesized by a simple approach Li Zhang, Guangyu Zhao, Yan Wang, Materials Science and Engineering: C, 2013, 33, 209-212（IF=4.164) 2012年 18. Electrodeposited Si film with excellent stability and high rate performance for lithium-ion battery anodes Guangyu Zhao, Yufeng Meng, Naiqing Zhang, Kening Sun, Materials Letters, 2012, 76, 55-58（IF=2.572） 17. Enhanced low temperature performances of expanded commercial mesocarbon microbeads (MCMB) as lithium ion battery anodes Guangyu Zhao, Zhaohuan Wei, Naiqing Zhang, Kening Sun, Materials Letters, 2012, 89, 243-246（IF=2.572) 2012年以前 16. Template preparation of Pt-Ru and Pt nanowire array electrodes on a Ti/Si substrate for methanol electro-oxidation. Zhao GY, Xu CL, Guo DJ, et al. JOURNAL OF POWER SOURCES 162 (2006) 492-496. 15. Highly ordered cobalt-manganese oxide (CMO) nanowire array thin film on Ti/Si substrate as an electrode for electrochemical capacitor. Zhao GY, Xu CL, Li HL, JOURNAL OF POWER SOURCES 163 (2007) 1132-1136. 14. Preparation of polyaniline nanowire arrayed electrodes for electrochemical supercapacitors. Zhao GY, Li HL, MICROPOROUS AND MESOPOROUS MATERIALS 110 (2008) 590-594. 13. Template preparation of Pt nanowire array electrode on Ti/Si substrate for methanol electro-oxidation. Zhao GY, Xu CL, Guo DJ, et al. APPLIED SURFACE SCIENCE 253 (2007) 3242-3246. 12. Patterning polycrystalline aluminum by electropolishing at low voltages. Zhao GY, Xu CL, Guo DJ, et al. JOURNAL OF SOLID STATE ELECTROCHEMISTRY 10 (2006) 266-269. 11. Electrochemical oxidation of methanol on Pt nanoparticles composited MnO2 nanowire arrayed electrode. Zhao GY, Li HL, APPLIED SURFACE SCIENCE 254 (2008) 3232-3235. 10. Pt-Ru nanowire arrayed electrodes for nitrite detection. Zhao GY, Xu CL, Li HL, MATERIALS LETTERS 62 (2008) 1663-1665. 9. Fabrication and magnetic properties of amorphous Co0.71Pt0.29 nanowire arrays. Li H, Xu CL, Zhao GY, et al. SOLID STATE COMMUNICATIONS 132 (2004) 399-403. 8. Effects of annealing temperature on magnetic property and structure of amorphous Co49Pt51 alloy nanowire arrays prepared by direct-current electrodeposition. Li H, Xu CL, Zhao GY, et al. JOURNAL OF PHYSICAL CHEMISTRY B 109 (2005) 3759-3763. 7. Effective adhesion of Pt nanoparticles on thiolated multi-walled carbon nanotubes and their use for fabricating electrocatalysts. Yang GW, Gao GY, ZhaoGY, et al. CARBON 45 (2007) 3036-3041. 6. Fabrication of superhydrophobic surfaces by a Pt nanowire array on Ti/Si substrates. Qu MN, Zhao GY, Wang Q, et al. NANOTECHNOLOGY 19 (2008) 055707. 5. Electrodeposition and magnetic properties of Ni nanowire arrays on anodic aluminum oxide/Ti/Si substrate. Xu CL, Li H, Zhao GY, et al. APPLIED SURFACE SCIENCE 253 (2006) 1399-1403. 4. Preparation and magnetic properties of amorphous Co-Pt alloy nanowire arrays. Li H, Xu CL, Zhao GY, et al. ACTA PHYSICO-CHIMICA SINICA 21 (2005) 641-645. 3. Electrodeposition of ferromagnetic nanowire arrays on AAO/Ti/Si substrate magnetic storage devices. Xu CL, Li H, Zhao GY, et al. MATERIALS LETTERS 60 (2006) 2335-2338. 2. Biomimetic fabrication of lotus-leaf-like structured polyaniline film with stable superhydrophobic and conductive properties. Qu MN, Zhao GY, Cao XP, et al. LANGMUIR 24 (2008) 4185-4189. 1. Ultrasonic assisted polyol synthesis of highly dispersed Pt/MWCNT electrocatalyst for methanol oxidation. Wang ZC, Zhao DD, Zhao GY, et al. JOURNAL OF SOLID STATE ELECTROCHEMISTRY 13 (2009) 371-376.