导师详细信息

 
  姓名:  刁鹏    
  性别:     
  出生年份:  1967    
  职称:  教授    
  院系:  材料科学与工程学院    
  首次聘任导师时间:  2009    
  现聘任导师一级学科名称:  材料科学与工程  
现聘任导师二级学科名称:  材料物理与化学
聘任在第二学科培养博士生专业名称: 
聘任在自主设置学科培养博士生专业名称: 
主要研究方向及特色:  能源材料方面:太阳能转化与存储材料、电池材料、光电催化材料; 电化学与光电化学方面:能源材料中的界面电荷传递研究、纳米材料的电化学与光电化学性质; 纳米材料方面:功能纳米材料的可控制备、组装及其性质研究
  电子信箱:  pdiao@buaa.edu.cn  
  办公电话:  82339562  
  办公地点:  新主楼 D440  
通信地址:  北京市海淀区学院路37号 北京航空航天大学 材料科学与工程学院
 
 
 
  个人简介: 
 
1. 个人情况简介(含社会兼职情况等)
刁鹏,男,1967年8月生,博士北航材料科学与工程学院教授,博士生导师,教育部“新世纪优秀人才”,斯坦福大学高级访问学者。北航“优秀主讲教师”称号获得者,研究生精品课主讲教师,北航首届“研究生课程卓越教学奖”获得者。长期从事能源材料、太阳能转化与存储、电池材料、电化学与光电化学、纳米材料与技术方面的研究工作。在上述领域承担多项国家级和省部级研究课题,包括国家自然科学基金项目、教育部新世纪优秀人才支持计划、教育部博导基金等、北京市自然科学重点基金和面上基金等。在材料学、化学领域的国际权威期刊Adv Mater., J. Am. Chem. Soc.等发表SCI收录论文70余篇,论文被引用1900余次,H因子为23。

2. 教学及人才培养情况(含承担教学任务、编写教材、培养研究生等),科研项目情况;
(1)承担教学任务方面:承担研究生必修课“电化学原理与方法”的教学工作,该课程为评为北航研究生精品课,2015年获得北航首届“研究生课程卓越教学奖”。
(2)编写教材方面:参加编译教材《碳纳米管--科学与应用》(Carbon Nanotubes Science and Application, 科学出版社,2007); 参加编写教材《电化学原理》(第三版,北京航空航天大学出版社,2008);参加编写教材《材料的腐蚀与防护》(西北工业大学出版社等,2006)。
(3)培养研究生方面:指导多名博士和硕士研究生,已有5名学生获得博士学位,其中包括两名留学生;有24名学生获得硕士学位论文。目前在读博士5人,硕士8人。
(4)主持的科研项目:
◆主持完成“教育部新世纪优秀人才支持计划”项目,批准号:NCET-08-0034
◆主持国家自然科学基金项目:“基于二维半导体材料的网络结构复合光电极的制备及其光电催化分解水性能研究”,直接经费:62 万 (批准号:51672017,执行时间:2017.1-2020.12)。”
◆主持完成国家自然科学基金项目:“取向纳米粒子阵列的光电化学制备及光电催化性质研究”, 60 万 (批准号:21173016,执行时间:2012.1-2015.12)。
◆主持完成国家自然科学基金项目:“化学组装技术与电化学辅助的表面有序纳米结构的可控制备”,35 万 (批准号:20973020,执行时间:2010.1-2012.12)。
◆主持完成国家自然科学基金项目:“微区分域电极体系的制备及电化学性质研究”,30 万(批准号:20773007,执行时间:2008.1-2010.12)。
◆主持完成国家自然科学基金项目: “纳米粒子的电位调控组装及电化学研究”,24 万(批准号:20373005,执行时间:2004.1-2006.12)。
◆主持完成北京市自然科学基金项目:“析氧催化剂修饰的纳米阵列光阳极的设计、构筑及光电催化氧化水性质研究” (批准号:2142020)。
◆主持完成教育部博导基金项目“电极表面钌、铑、铱纳米粒子的形貌、结构可控制备及电化学催化性质研究”(批准号:20101102110002)。

3. 发表学术论文情况
在能源材料(包括:太阳能转化与存储、电池材料)、电化学与光电化学、纳米材料可控制备与组装技术方面发表SCI收录论文70余篇。其中代表性论文如下:
(1) Peng Diao, Zhongfan Liu. Vertically-Aligned Single-Walled Carbon Nanotubes by Chemical Assembly ---Methodology, Properties and Applications. Adv. Mater. 2010, 22(13): 1430-1449. (影响因子:18.960)
(2) Peng Diao*, Dafeng Zhang, Min Guo, Qi Zhang. Comments on “Electric-Field-Assisted Growth of Highly Uniform and Oriented Gold Nanotriangles on Conducting Glass Substrates”. Adv. Mater., 2009, 21(13): 1317-1319. (影响因子:18.960)
(3) Yongye Liang, Hailiang Wang, Peng Diao, Wesley Chang, Guosong Hong, Yanguang Li, Ming Gong, Liming Xie, Jigang Zhou, Jian Wang, Tom Z. Regier, Fei Wei, and Hongjie Dai*. Oxygen Reduction Electrocatalyst Based on Strongly Coupled Cobalt Oxide Nanocrystals and Carbon Nanotubes. J. Am. Chem. Soc., 2012, 134(38), 15849-15857. (影响因子:13.038)
(4) Qingyong Wu, Peng Diao,* Jie Sun, Di Xu, Tao Jin, Min Xiang. Draining the photoinduced electrons away from an anode: the preparation of Ag/Ag3PO4 composite nanoplate photoanodes for highly efficient water splitting. J. Mater. Chem. A, 2015, 3(37), 18991-18999. (影响因子:8.262)
(5) Tao Jin, Peng Diao*, Qingyong Wu, Di Xu, Dianyi Hu, Yonghong Xie. WO3 nanoneedles/α-Fe2O3/cobalt phosphate composite photoanode for efficient photoelectrochemical water splitting. Applied Catalysis B: Environmental, 2014, 148–149, 304-310. (影响因子:8.328)
(6) Dianyi Hu, Peng Diao*, Di Xu, Mengyang Xia, Yue Gu, Qingyong Wu, Chao Li, Shubin Yang. Copper (II) Tungstate Nanoflake Array Films: Sacrificial Template Synthesis, Hydrogen Treatment, and Their Application as Photoanodes in Solar Water Splitting. Nanoscale, 2016, 8(11), 5892-5901. (影响因子:7.760)
(7) Dianyi Hu, Peng Diao*, Di Xu, Qingyong Wu. Gold/WO3 Nanocomposite Photoanodes for Plasmonic Solar Water Splitting. Nano Research, 2016, 9(6): 1735–1751. (影响因子:8.893)
(8) Di Xu, Peng Diao*, Tao Jin, Qingyong Wu, Xiaofang Liu, Xin Guo, Hongyu Gong, Fan Li, Min Xiang, Ronghai Yu. Iridium Oxide Nanoparticles and Iridium/Iridium Oxide Nanocomposites: Photochemical Fabrication and Application in Catalytic Reduction of 4-Nitrophenol. ACS Appl. Mater. Interfaces, 2015, 7(30), 16738-16749. (影响因子:7.145)
(9) Peng Diao*, Dafeng Zhang, Min Guo, Qi Zhang. Electrocatalytic oxidation of CO on supported gold nanoparticles and submicroparticles: Support and size effects in electrochemical systems. J. Catal., 2007, 250(2): 247-253. (影响因子:7.354)
(10) Yang Yang, Di Xu, Qingyong Wu, Peng Diao*. Cu2O/CuO Bilayered Composite as a High-Efficiency Photocathode for Photoelectrochemical Hydrogen Evolution Reaction. Scientific Reports, 2016, 6, 35158. (影响因子:5.228)
(11) Peng Diao*, Dafeng Zhang, Jingyi Wang, Qi Zhang. Electrocatalytic activity of supported gold nanoparticles toward CO oxidation: The perimeter effect of gold-support interface. Electrochem. Commun. 2010, 12, 1622-1625. (影响因子:4.569)
(12) Jingyi Wang, Peng Diao*, Da-Feng Zhang, Min Xiang, Qi Zhang. Electrochemical sensing of CO by gold particles electrodeposited on indium tin oxide substrate. Electrochem. Commun. 2009, 11(5): 1069-1072. (影响因子:4.569)
(13) Qingyong Wu, Peng Diao*, Jie Sun, Tao Jin, Di Xu and Min Xiang. Electrodeposition of Vertically Aligned Silver Nanoplate Arrays on Indium Tin Oxide substrates. J. Phys. Chem. C, 2015, 119(35), 20709-20720. (影响因子:4.509)
(14) Di Xu, Xiaohui Yan, Peng Diao*, Penggang Yin. Electrodeposition of Vertically Aligned Palladium Nanoneedles and Their Application as Active Substrates for Surface-Enhanced Raman Scattering. J. Phys. Chem. C, 2014, 118 (18), 9758–9768. (影响因子:4.509)
(15) Dafeng Zhang, Peng Diao*, Qi Zhang. Potential-Induced Shape Evolution of Gold Nanoparticles Prepared on ITO Substrate. J. Phys. Chem. C, 2009, 113(36): 15796-15800. (影响因子:4.509)
(16) Peng Diao*, Min Guo, Qi Zhang. How does the particle density affect the electrochemical behavior of gold nanoparticle assembly? J. Phys. Chem. C, 2008, 112(17): 7036-7046. (影响因子:4.509)
(17) Tao Jin, Peng Diao*, Di Xu, Qingyong Wu. High-aspect-ratio WO3 nanoneedles modified with nickel-borate for efficient photoelectrochemical water oxidation. Electrochimica Acta, 2013, 114, 271– 277. (影响因子:4.803)
(18) Yuanyuan Li, Peng Diao*, Tao Jin, Jie Sun, Di Xu. Shape-controlled electrodeposition of standing Rh nanoplates on indium tin oxide substrates and their electrocatalytic activity toward formic acid oxidation. Electrochimica Acta, 2012, 83, 146-154. (影响因子:4.803)
(19) Jingyi Wang, Peng Diao*. Direct electrochemical detection of pyruvic acid by cobalt oxyhydroxide modified indium tin oxide electrodes. Electrochimica Acta, 2011, 56(27): 10159-10165. (影响因子:4.803)
(20) Qingyong Wu, Di Xu, Ning Xue, Tengyi Liu, Min Xiang and Peng Diao*. Photo-catalyzed Surface Hydrolysis of Iridium (III) Ions on Semiconductors: A Facile Method for Preparation of Semiconductor/IrOx Composite Photoanodes toward Oxygen Evolution Reaction. Physical Chemistry Chemical Physics, 2017, 19(1), 145-154. (影响因子:4.449)
(21) Jingyi Wang, Peng Diao*, Qi Zhang. Dual detection strategy for electrochemical analysis of glucose and nitrite using a partitionally modified electrode. Analyst, 2012, 137(1), 145-152. (影响因子:4.033)
(22) Di Xu, Peng Diao*, Hakim Baida, Tao Jin, Xin Guo, Min Xiang, Yilong Yang, Hongyi Li, Jinshu Wang. Photochemical synthesis of iridium submicroparticles and their application in catalytic reduction of methylene blue. Applied Catalysis A: General, 2016, 516, 109-116. (影响因子:4.012)
(23) Dafeng Zhang, Peng Diao*. Activity and stability of supported gold nano- and submicro-particles toward the electrocatalytic oxidation of carbon monoxide. Applied Catalysis A: General, 2014, 469, 65-73. (影响因子:4.012)
(24) Xin Guo, Peng Diao*, Di Xu, Shan Huang, Yang Yang, Tao Jin, Qingyong Wu, Min Xiang, Mei Zhang CuO/Pd composite photocathodes for photoelectrochemical hydrogen evolution reaction. Internal. J. Hydrogen Energy, 2014, 39(15), 7687-7696. (影响因子:3.205)
(25) Peng Diao*, Min Guo, Qunchao Hou, Min Xiang, Qi Zhang. Electrochemically Partitioned Assembly of Organosulfur Monolayers and Nanoparticles. J. Phys. Chem. B, 2006, 110(41): 20386-20391. (影响因子:3.187)
(26) Peng Diao, Zhongfan Liu. Electrochemistry at Chemically Assembled Single-Wall Carbon Nanotube Arrays. J. Phys. Chem. B, 2005, 109(44): 20906-20913. (影响因子:3.187)
(27) Tao Jin, Di Xu, Peng Diao,* Wei-ping He, Hao-wei Wang, Sheng-zhi Liao. Tailored preparation of WO3 nano-grassblades on FTO substrate for photoelectrochemical water splitting. CrystEngComm, 2016, 18, 6798-6808. (影响因子:3.506)