张智涛长聘(教轨)副教授

电子邮件:zhangzhitao@sjtu.edu.cn
通讯地址:上海市闵行区东川路800号

  • 教育背景

    2012.9-2017.7:复旦大学,高分子化学与物理,博士(导师:彭慧胜教授)

    2008.9-2012.7:华东理工大学,高分子材料与工程,学士


  • 工作经历

    2022.5-至今:上海交通大学,化学化工学院,长聘教轨副教授

    2017.10-2022.4:美国斯坦福大学,博士后(合作导师:鲍哲南教授)


  • 研究方向

    主要致力于设计高性能、柔性、可拉伸高分子共轭材料,用于构建新型柔性电子织物和电子皮肤发光显示器件,并应用到可穿戴电子器件和生物电子器件等领域。研究工作主要包括以下三方面:

    1. 高分子共轭材料:通过分子工程策略制备具有高性能、高柔性、高可拉伸性的高分子共轭材料和高分子电极材料;

    2. 新型、柔性、可拉伸电子织物和电子皮肤发光显示器件:优化器件制备工艺,构建新型、柔性、可拉伸高分子发光显示器件,主要包括高分子发光二极管、高分子发光电化学池、高分子发光电容器等;

    3. 实际应用:致力于解决在可穿戴电子器件、可植入生物电子器件、光遗传学等领域关键科学问题。


  • 科研项目

    2021    国家海外高层次引进人才计划

    2021    上海市海外高层次引进人才计划


  • 代表性论文专著

    (已发表论文50余篇,总引用5600余次,h因子34;其中以第一作者(含共一)和通讯作者发表论文22篇,包括1 in Nature1 in Science1 in Nat. Photon., 1 in Nat. Rev. Mater., 2 in Nat. Commun., 1 in Natl. Sci. Rev.,2 in Angew. Chem. Int. Ed., 4 in Adv. Mater. and 2 in Adv. Energy Mater..)

    所有论文列表:https://scholar.lanfanshu.cn/citations?hl=zh-CN&user=Gp8T3pAAAAAJ

    1.       Zhang, Z.†, Wang, W.†, Jiang, Y.†, Wang, Y.†, Wu, Y., Lai, J., Niu, S., Xu, C., Shih, C., Wang, C., Yan, H., Galuska, L., Prine, N., Wu, H., Zhong, D., Chen, G., Matsuhisa, N., Zheng, Y., Yu, Z., Wang, Y., Dauskardt, R., Gu, X., Tok, J., Bao, Z.* "High-Brightness All-Polymer Stretchable LED with Charge-Trapping Dilution", Nature 2022, 603, 624-630. (†Equal contribution) (Highlighted by Nature Reviews Materials)

    2.       Jiang, Y.†, Zhang, Z.†, Wang, Y.†*, Li, D.†, Coen, C., Hwaun, E., Chen, G., Wu, H., Zhong, D., Niu, S., Wang, W., Saberi, A., Lai, J., Wu, Y., Wang, Y., Trotsyuk, A., Loh, K., Shih, C., Xu, W., Liang, K., Zhang, K., Bai, Y., Gurusankar, G., Hu, W., Jia, W., Cheng, Z., Dauskardt, R., Gurtner, G., Tok, J., Deisseroth, K., Soltesz, L., Bao, Z.* "Topological Supramolecular Network Enabled High Conductivity Stretchable Organic Bioelectronics", Science 2022, 375, 1411-1417. (†Equal contribution)

    3.       Zhang, Z., Guo, K., Li, Y., Li, X., Guan, G., Li, H., Luo, Y., Zhao, F., Zhang, Q., Wei, B., Pei, Q., Peng, H.* "A Colour-Tunable, Weavable Fibre-Shaped Polymer Light-Emitting Electrochemical Cell", Nature Photonics 2015, 9, 233-238. (Highlighted as a News and Views article by Nature Photonics; Nature provided a specific press information)

    4.       Zhang, Z.* "Light-Emitting Materials for Wearable Electronics", Nature Reviews Materials 2022, https://doi.org/10.1038/s41578-022-00502-4.

    5.       Zheng, H.†, Zhang, Z.†, Jiang, S.†, Yan, B.†, Shi, X., Xie, Y., Huang, X., Yu, Z., Liu, H., Weng, S., Nurmikko, A., Zhang, Y., Peng, H.*, Xu, W.*, Zhang, J.* "A Shape-Memory and Spiral Light-Emitting Device for Precise Multisite Stimulation of Nerve Bundles", Nature Communications 2019, 10, 2790. (†Equal contribution)

    6.       Liu, J.†, Wang, J.†, Zhang, Z.†, Lopez, P., Wang, G., Schroeder, B., Yan, X., Zeng, Y., Zhao, O., Tran, H., Lei, T., Lu, Y., Wang, Y., Tok, J., Dauskardt, R., Chung, J., Yun, Y.*, Bao, Z.*, "Fully Stretchable Active-Matrix Organic Light-Emitting Electrochemical Cell Array", Nature Communications 2020, 11, 8907. (†Equal contribution)

    7.       Zhang, Z., Bao. Z.* "High luminescent polymers for stretchable displays", National Science Review 2022, https://doi.org/10.1093/nsr/nwac093. (In press)

    8.       Zhang, Z., Li, X., Guan, G., Pan, S., Zhu, Z., Ren, D., Peng, H.* "A Lightweight Polymer Solar Cell Textile that Functions when Illuminated from Either Side", Angewandte Chemie International Edition 2014, 53, 11571-11574. (Awarded as a "VIP paper" by this journal and highlighted by Nature)

    9.       Sun, X.†, Zhang, Z.†, Lu, X., Guan, G., Li, H., Peng, H.* "Electric Current Test Paper Based on Conjugated Polymer and Aligned Carbon Nanotube", Angewandte Chemie International Edition 2013, 52, 7776-7780. (†Equal contribution)

    10.      Zhang, Z., Cui, L.†, Shi, X., Tian, X., Wang, D., Gu, C., Chen, E., Cheng, X., Xu, Y., Hu, Y., Zhang, J., Zhou, L., Fong, H., Ma, P., Jiang, G., Sun, X., Zhang, B., Peng, H.* "Textile Display for Electronic and Brain-Interfaced Communications", Advanced Materials 2018, 30, 1800323. (†Equal contribution)

    11.     Zhang, Z., Liao, M., Lou, H., Hu, Y., Sun, X., Peng, H.* "Conjugated polymers for flexible energy harvesting and storage", Advanced Materials 2018, 30, 1704261.

    12.     Zhang, Z., Chen, X., Chen, P., Guan, G., Qiu, L., Lin, H., Yang, Z., Bai, W., Luo, Y., Peng, H.* "Integrated Polymer Solar Cell and Electrochemical Supercapacitor in a Fiber Format", Advanced Materials 2014, 26, 466-470. (Highlighted by MaterialsViewsChina)

    13.     Zhang, Z.†, Deng, J.†, Li, X., Yang, Z., He, S., Chen, X., Guan, G., Ren, J., Peng, H.* "Superelastic Supercapacitors with High Performances during Stretching", Advanced Materials 2015, 27, 356-362. (†Equal contribution)

    14.     Zhang, Z., Yang, Z., Wu, Z., Guan, G., Pan, S., Zhang, Y., Li, H., Deng, J., Sun, B., Peng, H.* "Weaving Efficient Polymer Solar Cell Wires into Flexible Power Textiles", Advanced Energy Materials 2014, 4, 1301750.

    15.     Zhang, Z., Wang, L., Li, Y., Zhang, J., Guan, G., Pan, Z., Peng. H.* "Nitrogen-Doped Core-Sheath Carbon Nanotube Array for Highly Stretchable Supercapacitor", Advanced Energy Materials 2016, 7, 1601814.



  • 人才培养

    担任2023年“致远未来学者计划”顾问导师

  • 软件版权登记及专利

    张智涛,鲍哲南 “涉及可拉伸LED结构的设备和方法”,美国专利,专利申请号:63/314875;

    彭慧胜,张智涛,施翔 “一种高弹性电致发光纤维及其制备方法”,中国专利,专利号:CN201711132382.3;

    郑浩,张智涛,彭慧胜,张嘉漪 “可变形光遗传多点刺激器件”,中国专利,专利号:CN201711425091.3;

    彭慧胜,张智涛 “基于氮掺杂碳纳米管阵列/聚氨酯复合电极的可拉伸超级电容器及其制备方法”,中国专利,专利号:CN201510987928.8;

    彭慧胜,李一明,张智涛“一种智能可穿戴电阻加热织物及其制备方法”,中国专利,专利号:CN201611159474.6;

    彭慧胜,张智涛 “一种纤维状电化学发光电池及其制备方法”,中国专利,专利号:CN201410555186.7;

    彭慧胜,张智涛 “纤维状电化学发光电池及其制备方法”中国专利,专利号:CN201510006681.7;

    彭慧胜,张智涛,邓珏 “以碳纳米管/聚苯胺复合材料为对电极的可拉伸线状超级电容器及其制备方法”,中国专利,专利号:CN201410451373.0;

    彭慧胜,  张智涛 “全固态纤维状同轴聚合物太阳电池和超级电容器集成器件及其制备方法”,中国专利,专利号:CN201310274992.2;

       


  • 荣誉奖励

    2016    陶氏化学可持续发展奖一等奖

    2015    MRS Graduate Student Silver Award

    2015    中国大学生“自强之星”

    2015    复旦大学“光华自立奖”特等奖

    2015    复旦大学“学术之星”

    2015    复旦大学优秀学生

    2011    美国大学生数学建模竞赛国际二等奖

    2010    上海世博会志愿者荣誉称号




  • 人才需求

    欢迎具备高分子材料学、化学、物理、微电子、生物医学等学科背景的博士后、博士生、硕士生、本科生加入我们的团队,共同组建一个团结温馨、朝气蓬勃、富有创造力的研究团队。

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