张弘楠
发布时间: 2015-02-10

个人简介

        张弘楠,男,1983年生,高分子化学与物理专业,理学博士、讲师;20117月毕业于吉林大学获得理学博士学位。20122月,赴沙特阿卜杜拉国王科技大学水研究中心进行博士后研究工作。20135月加入东华大学纺织学院任教。主要研究为准一维复合纳米功能材料,在电纺纤维作为纳米功能器件的应用领域取得了大量成果。讲授本科生课程:《高分子物理》,《微纳米纺织品与检测》,研究生课程:《纳米技术与纳米纺织品》。作为主要参加人参与863973项目及多项国家自然科学基金项目的研究工作。共发表SCI检索文章25篇,总被引次数超过500次;授权美国发明专利1项,国家发明专利5项。2014年入选上海科技英才扬帆计划,获得中国纺织工业联合会科学技术一等奖。

学习及工作经历

  • 20029月至20067月,吉林大学化学学院,学士学位;
  • 20069月至20117月,吉林大学化学学院,博士学位;
  • 20122月至20132月,沙特阿卜杜拉国王科技大学,博士后;
  • 20135月至今,东华大学纺织学院,讲师;

研究方向

  1. 零维,一维纳米材料的制备与表征
  2. 无机有机纳米复合材料的制备与性能研究
  3. 静电纺丝法,水热法制备一维、准一维纳米复合材料
  4. 基于纳米材料的光催化、生物传感器、气体传感器的研制及应用
  5. 聚合物基纳米复合材料的制备与表征

荣誉及获奖情况

  • 2014年,入选上海科技英才扬帆计划
  • 2014年,获中国纺织工业联合会科学技术一等奖

近五年承担的科研项目

  1. 上海科技英才扬帆计划,具有传感特性异质结构碳纳米纤维复合材料的研制,2014-2017项目负责人
  2. 东华大学中央高校自由探索项目,异质结构纳米纤维复合传感材料的研制,2014-2016项目负责人
  3. 973纳米重大专项准一维半导体纳米材料的结构调控物性测量及器件基础,2007-2011子项目第二完成人
  4. 国家863项目下一代聚合物基纳米驻极体的制备及技术,2007-2010第二完成人
  5. 国家自然基金基于静电纺丝技术研制具有光催化自清洁特性的高效氢传感器2011-2013第二完成人)
  6. 吉林省自然科学基金,具有催化氧化还原能力的碳毡的研制,2011-2013第二完成人

近五年代表性论文、专利

1)论文

  1. Highly Sensitive and Stable Humidity Nanosensors Based on LiCl Doped TiO2 ElectrospunNanofibers. Zhenyu Li, Hongnan Zhang, Wei Zheng, Wei Wang,Huimin Huang, Ce Wang,*Alan G. MacDiarmid,Yen WeiJ. Am. Chem. Soc. 2008, 13020085036–5037.
  2. Mg2+/Na+-doped rutile TiO2nanofiber mats for high-speed and anti-fogged humidity sensors. Hongnan Zhang, Zhenyu Li, Li Liu, Ce Wang,*Yen Wei,*Alan G. MacDiarmidTalanta79 (2009) 953–958.
  3. Na+-Doped Zinc Oxide Nanofiber Membrane for High Speed Humidity Sensor. Hongnan Zhang, Zhenyu Li, Wei Wang, Ce Wang,* Li Liu Journal of the American Ceramic Society93 (2010) 142–146.
  4. Enhancement of hydrogen monitoring properties based on Pd-SnO2 composite nanofibers. Hongnan Zhang, Zhenyu Li, Li Liu, XiuruXu, Zhaojie Wang, Wei Wang, Wei Zheng, Bo Dong, Ce Wang*Sensors and Actuators B: Chemical147 (2010) 111–115.
  5. Wei Wang, Xiaofeng Lu, Zhenyu Li*, Junyu Lei, Xincai Liu, Zhaojie Wang, Hongnan Zhang, Ce Wang, One-dimensional polyelectrolyte/polymeric semiconductor core/shell: sulfonatedpoly(arylene ether ketone)/polyanilinenanofibers for organic field-effect transistors. Advanced Materials23 (2011) 5109-5112.
  6. Wei Wang, Zhengyu Li*, XiuruXu, Bo Dong, Hongnan Zhang, Zhaojie Wang, Ce Wang*, Ray H. Baughman, Shaoli Fang, Au-doped polyacrylonitrile-polyaniline core-shell electrospunnanofibers having high field-effect mobilities. Small7 (2011) 597-600.
  7. Improved photocatalytic activity of mesoporous ZnO-SnO2 coupled nanofibers. Zhaojie Wang, Zhenyu Li, Hongnan Zhang, Ce Wang*Catalysis Communications11 (2009) 257–260.
  8. Facile Preparation of Ultrafine Polyimide Nanofibers Containing Silver Nanoparticles. Nantao Hu, Guodong Dang, Hongnan Zhang, Ying Du, Ce Wang, Hongwei Zhou, XianhuiMeng, Chunhai Chen Journal of Nanoscience and Nanotechnology9 (2009) 6688–6692.
  9. Electrospinning route for α-Fe2O3 ceramic nanofibers and their gas sensing properties.Wei Zheng, Zhenyu Li, Hongnan Zhang, Wei Wang, Yu Wang, Ce Wang* Materials Research Bulletin44 (2009) 1432–1436.
  10. Improved Hydrogen Monitoring Properties Based on p-NiO/n-SnO2 Heterojunction Composite Nanofibers. Zhaojie Wang, Zhenyu Li, Jinghui Sun, Hongnan Zhang, Wei Wang, Wei Zheng, Ce Wang*Journal of Physical Chemistry C 114 (2010) 6100-6105.
  11. Bo Dong, Xiaofeng Lu, Zhenyu Li*, Hongnan Zhang, Zongxin Wang, Ce Wang*, ZongwenLiu, Effect of the thickness of PAN/Au modified electrode on biosensor sensitivity. Functional Materials Letters 5 (2012) 1250035.
  12. XiuruXu, Jinghui Sun, Hongnan Zhang, Zhaojie Wang, Bo Dong, Tingting Jiang, Wei Wang, Zhenyu Li*, Ce Wang, Effect of Al doping on SnO2nanofibers in hydrogen sensor. Sensors and Actuators B: Chemical160 (2011) 858-863.
  13. Fan Yang, Wei Zheng, Huimin Huang, Zhenyu Li, Hongnan Zhang, Wei Wang, Ce Wang*, Decoration of ElectrospunNanofibers with Magnetic Nanoparticles via Electrospinning and Sol-gel Process. Chemical Research in Chinese Universities26 (2010) 847-850.
  14. A Novel Alcohol Detector Based on ZrO2-Doped SnO2ElectrospunNanofibers. Zhaojie Wang, Zhenyu Li, Li Liu, XiuruXu, Hongnan Zhang, Wei Wang, Wei Zheng, Ce Wang*Journal of the American Ceramic Society93 (2010) 634–637.
  15. A rapidly responding sensor for methanol based on electrospun In2O3 SnO2 nanofibers. Wei Zheng,Xiaofeng Lu, Wei Wang, Bo Dong, Hongnan Zhang, Zhaojie Wang, XiuruXu, Ce Wang* Journal of the American Ceramic Society93 (2010) 15–17.
  16. A highly sensitive and fast-responding sensor based on electrospun In2O3nanofibers. Wei Zheng, Xiaofeng Lu, Wei Wang, Zhenyu Li, Hongnan Zhang, Yu Wang, Zhaojie Wang, Ce Wang*Sensors and Actuators B: Chemical142 (2009) 61–65.
  17. Assembly of Pt nanoparticles on electrospun In2O3nanofibers for H2S detection. Wei Zheng, Xiaofeng Lu, Wei Wang, Zhenyu Li, Hongnan Zhang, Zhaojie Wang, XiuruXu, Shangyu Li, Ce Wang* Journal of Colloid and Interface Science338 (2009) 366–370.
  18. Humidity sensor based on LiCl-doped ZnOelectrospunnanofibersWeiWang, Zhenyu Li, Li Liu, Hongnan Zhang,WeiZheng, YuWang, Huimin Huang, ZhaojieWang, CeWang* Sensors and Actuators B: Chemical141 (2009) 404–409.
  19. Electrospun palladium(IV)-doped copper oxide composite nanofibers for non-enzymatic glucose sensors. Wei Wang, Zhenyu Li, Wei Zheng, Jie Yang, Hongnan Zhang, Ce Wang*Electrochemistry Communications11 (2009) 1811–1814.
  20. Zinc Oxide Nanofiber Gas Sensors Via ElectrospinningWei Wang, Huimin Huang, Zhenyu Li, Hongnan Zhang, Yu Wang, Wei Zheng, Ce Wang*Journal of the American Ceramic Society91(2008) 3817–3819.
  21. A simple and effectiveroute for one dimensional Ag-TCNQ metal organic microstructure. Wei Zheng,Zhenyu Li, Fan Yang, Xiaofeng Song, Hongnan Zhang, Yongben Liu, Ce Wang* Materials Letters62 (2008) 1448–1450.
  22. Plasmonic gold nanocrystals coupled with photonic crystal seamlessly on TiO2 nanotube photoelectrodes for efficient visible light photoelectrochemical water splitting. Zhonghai Zhang, Mohamed NejibHedhili, Lianbin Zhang, Hongnan Zhang, Peng Wang*Nano Letters13 (2013) 14-20.
  23. Carbon-layer-protected cuprous oxide nanowire arrays for efficient water reduction. Zhonghai Zhang, RubalDua, Lianbin Zhang, Haibo Zhu, Hongnan Zhang, Peng Wang*ACS Nano7 (2013) 1709-1717.
  24. Three-dimensional assemblies of graphene prepared by a novel chemical reduction-induced self-assembly method. Lianbin Zhang, Guoying Chen, Mohamed NejibHedhili, Hongnan Zhang, Peng Wang*Nanoscale4 (2012) 7038-7045.
  25. One-dimensional isomeric and hierarchical TiO2 nanostructures: novel air stable semiconducting building blocks. Zhaojie Wang, Zhenyu Li, XiuruXu, Tingting Jiang, Hongnan Zhang, Wei Wang, Ce WangJournal of Materials Chemistry C1 (2013) 213-215.

2)专利

  1. Nanofibers and methods of making same and using same in humidity sensors; 8,225,641; Issued: Jul. 24, 2012; Inventors: Ce Wang; Hongnan Zhang; Zhenyu Li; Wei Zheng; Wei Wang; Changkun Liu; Bing Zhou.(美国专利)
  2. 电纺丝法制备快速响应-恢复陶瓷基纳米纤维湿敏传感器;专利号:ZL 2007 1 0056363.7;授权公告日:2010519日,发人:王策;张弘楠;李振宇;郑伟;王威.
  3. 电纺丝法制备高性能陶瓷基纳米纤维气敏传感器;专利号:ZL 2008 1 0050660.5;授权公告日:20101229日,发人:王策;郑伟;王威;宋晓峰;张弘楠;李振宇
  4. 一种超高电荷迁移率的高分子场效应晶体管的制备方法;专利号:ZL 2010 1 0197162.0;授权公告日:201297日,发明人:王策;王威;李振宇;董博;张弘楠;宋明昕;王兆杰.
  5. 通过多级异质结构纳米材料构筑电子器;专利号ZL 2011 1 0118975.0;授权公告日:2013227日,发明人:王策;王兆杰;李振宇;张弘楠;王威;徐秀茹;姜婷婷
  6. 常温下利用静电纺丝技术制备聚丙烯超细纤维的方法;专利号:ZL 2010 1 0505164.1;授权公告日:201274日,发明人:王策;徐秀茹;李响;张弘楠;王兆杰;董博;张城城.

联系信息

电话:67792380

电子邮箱:hnzhang@dhu.edu.cn