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叶丁丁

职称:教授

联系方式:dingdingye@cqu.edu.cn

主要从事:​作为项目负责人承担了国家自然科学基金青年基金1项、面上项目2项、国防科技173计划技术领域基金项目1项、省部级项目4项、中央高校基本科研业务费2项,并参与国家自然科学基金多项
  • 个人简介
  • 教育经历
  • 研究方向
  • 本科生及研究生培养
  • 科研项目
  • 代表性论文

2009年获重庆大学动力工程及工程热物理专业工学博士学位。2016年受国家留学基金委的资助作为访问学者赴加拿大多伦多大学进行为期一年的访问研究。作为项目负责人承担了国家自然科学基金青年基金1项、面上项目2项、国防科技173计划技术领域基金项目1项、省部级项目4项、中央高校基本科研业务费2项,并参与国家自然科学基金多项。在国内外学术刊物及学术会议上发表研究论文110余篇,其中SCI收录70余篇、EI收录20余篇,合作申请发明专利30余项,已授权发明专利10余项。

入选首批重庆英才计划青年拔尖人才、重庆大学科研后备拔尖人才培育计划(青年人才)。国家自然科学基金评审专家、中国博士后科学基金评审专家;《Biosensors and Bioelectronics》优秀审稿人,《Renewable & Sustainable Energy Reviews》、《Journal of Power Sources》、《Applied Energy》、《Electrochimica Acta》、《International Journal of Hydrogen Energy》、《International Journal of Thermal Sciences》等20余国际期刊审稿人。


2004-2009    重庆大学动力工程学院  博士

2000-2004    重庆大学动力工程学院  学士


        1.  能源与环境技术中的关键热物理问题

        2.  燃料电池与传输现象

        3.  微尺度传输理论及微能源系统

        4.  新能源技术及新能源动力装置系统



          1.  能源与环境技术中的关键热物理问题

          2.  燃料电池与传输现象

          3. 微尺度传输理论及微能源系统

          4. 新能源技术及新能源动力装置系统

          招收以上及相关方向动力工程及工程热物理专业博士、硕士研究生,欢迎报考!


    1.  国防科技173计划技术领域基金项目,120万,2021-2024,负责人

    2.  重庆英才计划“包干制”项目,40万,2021-2024,负责人

    3.  重庆市自然科学基金,10万,2020-2023,负责人

    4.  国家自然科学基金面上项目,62万,2018-2021,负责人

    5.  重庆市留学人员回国创业创新支持计划创新类优秀项目,8万,2019-2020,负责人

    6.  重庆大学2017年度科研后备拔尖人才培育计划(青年人才),40万,2018-2020,负责人

    7.  国家自然科学基金面上项目,80万,2014-2017,负责人

    8.  中央高校基本科研业务费工程学部重点项目,20万,2014-2016,负责人

    9.  重庆市自然科学基金,5万,2011-2014,负责人

    10.  国家自然科学基金青年基金,20万,2011-2013,负责人

    11.  中央高校基本科研业务费自然科学类项目,7.5万,2011-2012,负责人

     获奖情况:

     1.  2019年首批重庆英才计划青年拔尖人才

      2.  2018年度高等学校科学研究优秀成果奖(科学技术)自然科学一等奖(排名第九)

      3.  2016年度重庆大学优秀青年教师

      4.  2012年重庆市科学技术奖自然科学奖二等奖(排名第五)

      5.   2011年中国工程热物理学会传热传质学术会议青年优秀论文二等奖

      6.   2010年重庆市优秀博士学位论文

      7.   2010年重庆大学优秀博士学位论文


国际期刊论文:

[1]     Zhenfei Liu, Dingding Ye*, Xun Zhu*, Shaolong Wang, Yanan Zou, Linghan Lan, Rong Chen, Yang Yang, Qiang Liao. ZIF-67-derived Co nanoparticles embedded in N-doped porous carbon composite interconnected by MWCNTs as highly efficient ORR electrocatalysts for a flexible direct formate fuel cell. Chemical Engineering Journal. 2022, 432: 134192.

[2]     Shaolong Wang, Dingding Ye*, Hao Liu, Xun Zhu, Zhenfei Liu, Rong Chen, Qiang Liao*, Yang Yang. Natural bamboo-derived O-doped rocky electrocatalyst for high-efficiency electrochemical reduction of O2 to H2O2. International Journal of Hydrogen Energy. 2022, 47(9): 5961-5973.

[3]     Shaolong Wang, Dingding Ye*, Zhenfei Liu, Xun Zhu, Rong Chen, Qiang Liao, Yang Yang, Hao Liu. A flexible on-fiber H2O2 microfluidic fuel cell with high power density. International Journal of Hydrogen Energy. 2022, 47(7): 4793-4803.

[4]     Qiao Lan, Dingding Ye*, Xun Zhu*, Rong Chen, Qiang Liao. Enhanced gas removal and cell performance of a microfluidic fuel cell by a paper separator embedded in the microchannel. Energy. 2022, 239, part B: 122098.

[5]     Wei Zhang#, Yingying Lin#, Rong Chen*, Xun Zhu, Dingding Ye*, Yang Yang, Jinwang Li, Youxu Yu, Qiang Liao. Self-doped TiO2 nanotube array photoanode for microfluidic all-vanadium photoelectrochemical flow battery. Journal of Electroanalytical Chemistry, 2021, 897: 115598.

[6]     Qiao Lan, Dingding Ye*, Xun Zhu, Rong Chen, Qiang Liao, Tong Zhang, Yuan Zhou. Direct formate/persulfate microfluidic fuel cell with a catalyst-free cathode and high power density. ACS Sustainable Chemistry & Engineering. 2021, 9(16): 5623-5630.

[7]     Dingding Ye*, Pengqing Zhang, Jun Li, Xun Zhu, Rong Chen, Qiang Liao. In situ visualization of biofilm formation in a microchannel for a microfluidic microbial fuel cell anode. International Journal of Hydrogen Energy. 2021, 46(27): 14651-14658.

[8]     Zhenfei Liu, Dingding Ye*, Xun Zhu*, Shaolong Wang, Rong Chen, Yang Yang, Qiang Liao. A self-pumping microfluidic fuel cell powered by formate with Pd coated carbon cloth electrodes. Journal of Power Sources. 2021, 490, 229553.

[9]     Haoran Zhang, Biao Zhang, Yang Yang*, Dingding Ye*, Rong Chen, Qiang Liao, Xun Zhu*. A high power density paper-based zinc–air battery with a hollow channel structure. Chemical Communications, 2021, 57(10), 1258-1261.

[10]  Guoqian Chen, Dingding Ye*, Rong Chen, Jun Li, Xun Zhu, Qiang Liao. Enhanced efficiency for carbon dioxide electroreduction to formate by electrodeposition Sn on Cu nanowires. Journal of CO2 Utilization. 2021, 44: 101409.

[11]  Bowen Deng, Dingding Ye*, Biao Zhang, Xun Zhu, Rong Chen, Qiang Liao. Current density distribution in air-breathing microfluidic fuel cells with an array of graphite rod anodes. International Journal of Hydrogen Energy. 2021, 46(3):2960-2968.

[12]  Tong Zhang, Xun Zhu*, Ding-Ding Ye**, Rong Chen, Yuan Zhou, Qiang Liao. Cyclic voltammetry electrodeposition of well-dispersed Pd nanoparticles on carbon paper as a flow-through anode for microfluidic direct formate fuel cells. Nanoscale, 2020, 12(39): 20270-20278.

[13]  Shaolong Wang, Dingding Ye*, Zhenfei Liu, Rong Chen, Xun Zhu, Biao Zhang, Rui Wu, Qiang Liao. A direct formate microfluidic fuel cell with cotton thread-based electrodes. International Journal of Hydrogen Energy. 2020, 45(51): 27665-27674.

[14]  Zhenfei Liu, Dingding Ye*, Shaolong Wang, Xun Zhu, Rong Chen, Qiang Liao*. Single-stream H2O2 membraneless microfluidic fuel cell and its application as a self-powered electrochemical sensor. Industrial & Engineering Chemistry Research. 2020, 59(35), 15447-15453.

[15]  Rui Wu, Dingding Ye*, Rong Chen, Biao Zhang, Xun Zhu*, Hang Guo, Zhongliang Liu. A membraneless microfluidic fuel cell with continuous multi-stream flow through cotton threads, International Journal of Energy Research, 2020, 44(3): 2243-2251.

[16]  Zhenfei Liu, Dingding Ye*, Rong Chen, Biao Zhang, Xun Zhu, Qiang Liao. A dual-functional three-dimensional herringbone-like electrode for a membraneless microfluidic fuel cell. Journal of Power Sources, 2019, 438: 227058.

[17]  Xin Chen, Rong Chen*, Xun Zhu, Qiang Liao, Yuxin Zhang, Dingding Ye*, Biao Zhang, Youxu Yu, Jinwang Li. A solar responsive cubic nanosized CuS/Cu2O/Cu photocathode with enhanced photoelectrochemical activity. Journal of Catalysis, 2019, 372: 182-192.

[18]  ZHANG Biao, WANG HaoNan, ZHU Xun*, YE DingDing*, LIAO Qiang, SUI PangChieh, DJILALI Ned, JIANG Li, FU YaLu. Effect of geometrical configurations on alkaline air-breathing membraneless microfluidic fuel cells with cylinder anodes. SCIENCE CHINA Technological Sciences, 2019, 62(3):388-396.

[19]  Zhenfei Liu, Dingding Ye*, Rong Chen, Biao Zhang, Xun Zhu*, Jun Li, Qiang Liao. A woven thread-based microfluidic fuel cell with graphite rod electrodes. International Journal of Hydrogen Energy, 2018, 43(9): 22467-22473.

[20]  Dingding Ye*, Pengqing Zhang, Xun Zhu*, Yang Yang, Jun Li, Qian Fu, Rong Chen, Qiang Liao, Biao Zhang. Electricity generation of a laminar-flow microbial fuel cell without any additional power supply. RSC Advances. 2018, 8(59), 33637-33641.

[21]  Yang Yang, Dingding Ye, Xun Zhu*, Qiang Liao, Jun Li, Rong Chen. Boosting power density of microfluidic biofuel cell with porous three-dimensional graphene@nickel foam as flow-through anode. International Journal of Hydrogen Energy, 2018, 43(39), 18516-18520.

[22]  Yang Yang, Tianyu Liu, Qiang Liao, Dingding Ye*, Xun Zhu, Jun Li, Pengqing Zhang, Yi Peng, Shaowei Chen, Yat Li**. A three-dimensional nitrogen-doped graphene aerogel-activated carbon composite catalyst that enables low-cost microfluidic microbial fuel cells with superior performance. Journal of Material Chemistry A. 2016, 4(41), 15913-15919. (IF=8.867) 封底文章

[23]  Dingding Ye*, Bowen Deng, Jun Li, Wentian Zou, Chuan Ke, Zhi Yuan, Xun Zhu, Qiang Liao. Electricity production of a microbial fuel cell stack integrated in a sink drain pipe. Research on Chemical Intermediates. 2016, 42(11): 7689-7700. (IF=1.369)

[24]  Yang Yang, Dingding Ye (co-first author), Jun Li, Xun Zhu*, Qiang Liao, Biao Zhang. Microfluidic microbial fuel cells: from membrane to membrane free. Journal of Power Sources, 2016, 324: 113-125. (IF=6.395)

[25]  Yang Yang, Tianyu Liu, Xun Zhu*, Feng Zhang, Dingding Ye, Qiang Liao, Yat Li*. Boosting power density of microbial fuel cells with 3D nitrogen-doped graphene aerogel electrode. Advanced Science. 2016, 3(8),1600097. (IF=9.034)

[26]  Yang Yang, Dingding Ye*, Qiang Liao**, Pengqing Zhang, Xun Zhu, Jun Li, Qian Fu. Enhanced biofilm distribution and cell performance of microfluidic microbial fuel cells with multiple anolyte inlets. Biosensors and Bioelectronics. 2016, 79: 406-410.  (IF=7.78)

[27]  Dingding Ye, Yang Yang, Jun Li, Xun Zhu, Qiang Liao*, Biao Zhang. A laminar flow microfluidic fuel cell for detection of hexavalent chromium concentration. Biomicrofluidics. 2015, 9(6): 064110. (IF=2.535)

[28]  Biao Zhang, Ding-ding Ye*, Jun Li, Xun Zhu, Qiang Liao. Air-breathing microfluidic fuel cells with a cylinder anode operating in acidic and alkaline media. Electrochimica Acta. 2015, 177: 264-269. (IF=4.798)

[29]  Yang Yang, Dingding Ye*, Jun Li, Xun Zhu, Qiang Liao, Biao Zhang. Biofilm distribution and performance of microfluidic microbial fuel cells with different microchannel geometries. International Journal of Hydrogen Energy. 2015, 40(35): 11983-11988. (IF=3.582)

[30]  Ding-Ding Ye, Biao Zhang, Xun Zhu*, Pang-Chieh Sui, Ned Djilali, Qiang Liao, Computational modeling of alkaline air-breathing microfluidic fuel cells with an array of cylinder anodes, Journal of Power Sources, 2015, 288: 150-159. (IF=6.395)

[31]  Dingding Ye, Pu Jin, Jun Li, Xun Zhu, Qiang Liao. Effect of inert particle concentration on the operation of a microbial fuel cell. International Journal of Hydrogen Energy, 2014, 39(33): 19355-19360.

[32]  Dingding Ye, Yang Yang, Jun Li, Xun Zhu*, Qiang Liao, Bowen Deng, Rong Chen. Performance of a microfluidic microbial fuel cell based on graphite electrodes. International Journal of Hydrogen Energy, 2013, 38(35): 15710-15715.

[33]  Biao Zhang, Dingding Ye, Jun Li, Xun Zhu*, Qiang Liao. Electrodeposition of Pd catalyst layer on graphite rod electrodes for direct formic acid oxidation. Journal of Power Sources, 2012, 214: 277-284.

[34]  Dingding Ye, Xun Zhu, Qiang Liao, Jun Li, Qian Fu. Two-dimensional two-phase mass transport model for methanol and water crossover in air-breathing direct methanol fuel cells. Journal of Power Sources, 2009, 192(2): 502-514.

授权发明专利:

1.  叶丁丁,兰巧,朱恂,刘明,陈蓉,廖强,付乾.一种具有分隔膜的微流体燃料电池. 专利号:ZL 201911055529.2. 授权公告日:2021-09-24.

2.  叶丁丁,刘振飞,朱恂,陈蓉、廖强,李俊,付乾.一种单通道线基过氧化氢无膜被动式微流体燃料电池. 专利号:ZL 201911332248.7. 授权公告日:2021-06-25.

3.  叶丁丁,吴锐,朱恂,张彪,陈蓉,李俊,付乾,张亮,廖强. 一种基于棉线的被动式微流体燃料电池. 专利号:ZL 201710675613.9. 授权公告日:2019-08-30.

4.  叶丁丁, 杨扬, 李俊, 朱恂, 廖强, 王宏, 陈蓉, 王永忠, 丁玉栋. 基于石墨电极的无膜微流体微生物电池. 专利号:ZL201310081648.1.授权公告日:2015-04-08.

5.  叶丁丁, 张彪, 李俊, 朱恂, 廖强, 王宏, 王永忠, 丁玉栋, 陈蓉. 曲面电极催化剂层制备方法. 专利号:ZL 201110221227.5. 授权公告日:2013-11-06.

6.  叶丁丁,张彪,朱恂,李俊,廖强,王宏,陈蓉,王永忠,丁玉栋. 容积式三维阳极催化的自呼吸微流体燃料电池. 专利号:ZL201110181457.3. 授权公告日:2013-08-07.


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