童刚生副研究员

办公电话:021-34203400
电子邮件:tgs@sjtu.edu.cn
通讯地址:上海市东川路800号上海交通大学系统生物医学研究院D406室

  • 教育背景

    1994.9-1998.7  湘潭大学化工学院,学士
    1999.9-2002.7  湘潭大学化工学院,硕士
    2004.2-2007.6  华东理工大学化工学院,博士

  • 工作经历

    1998.7-2009.4  湘潭大学化工学院,助教、讲师、副教授
    2009.4-2011.7  上海交通大学化学站,博士后
    2011.7-2017.6  上海交通大学分析测试中心,助理研究员、副研究员
    2016.3-2017.3  伊利诺伊大学香槟分校, 访问学者
    2017.6-至今   上海交通大学化学化工学院,副研究员

  • 研究方向

    [1] 超支化聚合物的可控制备及功能化
    [2] 功能化纳米材料
    [3] 聚合物加工

    [4] 特种涂料

  • 科研项目

    主持包括国家自科基金面上项目在内的17项科研项目,经费近4000万元,参与包括国家重点研发计划在内的各类项目20余项。

  • 代表性论文专著

    [24] K. Y. Jiang, P. P. Peng, D. Tranca, G. S. Tong*, C. C. Ke*, C.B. Lu, H. W. Liang, J. T. Li, S. Q. Zhou, E. Kymakis, X. D. Zhuang*. Covalent triazine frameworks and porous carbons: perspective from an azulene-based case. Macromolecular Rapid Communications, 2022, 2200392.

    [23] J. J. Zhou, M. Li, J. D. Wu, C. Y. Zhang, Z. D. He*, Y. Xiao*, G. S. Tong*, X.Y. Zhu. One-pot synthesis of hydroxyl terminated hyperbranched semi-aromatic poly(ester-imide)s. Polymer, 2022, 253, 124970.

    [22] Z. H. Yang, K. Y. Jiang, G. S. Tong*, C. C. Ke*, H. F. Wu, P. Liu,J. C. Zhang, H. P. Ji, J. H. Zhu, C. B. Lu*, X. D. Zhuang*. Copper-involved highly efficient oxygen reduction reaction in both alkaline and acidic media. Chemical Engineering Journal, 2022, 437, 135377.

    [21] J. K. Fan, N. Ren, C. Y. Zhang, M. Li, X. Y. Zhu, G. S. Tong*. Synthesis of hyperbranched polyolefin with well-defined terminal functional group. Polymer, 2022, 242, 124571.

    [20] J. Q. Huang, K. Y. Jiang, D. Tranca, C. C. Ke*, L. H. Zhang, J. Li, J. T. Li, G. S. Tong*, E. Kymakis, X. D. Zhuang*. Perovskite oxide and polyazulene–based heterostructure for high-performance supercapacitors. Journal of Applied Polymer Science, 2021,138:e51198.

    [19]  S. Q. Xiong, C. Y. Zhang, R. J. Huang, K. J. Luo, X. Y. Zhu, G. S. Tong*. Strong yet tough, excellent thermal resistant and UV-Protective Polydopamine/ Poly(vinyl alcohol) composites via hydrogen-bonding interaction. Polymer, 2021,  221, 123603.

    [18]  Y.  X. Zhang, J. Huang, J. Zhang*, X. Y. Zhu, G. S. Tong*. Synthesis and self-assembly of photo-responsive polypeptoid-based copolymers containing azobenzene side chains. Polymer Chemistry, 2021, 12, 1823-1829

    [17]  M. Huo, G. S. Tong*, C. Y. Zhang, X. Y. Zhu*. Hybrid polymerization of reversible complexation mediated polymerization (RCMP) and reversible addition-fragmentation chain-transfer (RAFT) polymerization. Macromolecules, 2020, 53, 9345-9352.

    [16]  X. T. Wu, R. Chen, X. Jin*, D. Wu, G. S. Tong*, X. Y. Zhu*. Role transition of PNIPAM ionic microgels in dispersion polymerization by changing the monomer type. Polymer, 2019, 175, 171-176.

    [15]  P.  P. Peng, K. Yang, G. S. Tong*, L. Ma*. Polysaccharide nanoparticles for targeted cancer therapies. Current Drug Metabolism, 2018, 19 (9), 781-792.

    [14]  X. Jin, P. Sun, G. S. Tong*, X. Y. Zhu*. Star polymer-based unimolecular micelles and their application in bio-imaging and diagnosis. Biomaterials 2018, 178, 738-750.

    [13]  H. Y. Jiang, D. Chen, D. B. Guo, N. Wang, Y. Su, X. Jin*, G. S. Tong*, X. Y. Zhu. “Zwitterionic” gold nanorods: low toxicity and high photothermal efficacy for cancer therapy. Biomaterials Science. 2017, 5, 686-697.

    [12]  W. Z. Zhou, Z. X. Lin, G. S. Tong*, S. D Stoyanov, D. Y. Yan, Y. Y. Mai*, X. Y. Zhu*. Multi-template synthesis of hierarchically porous carbon spheres with potential application in supercapacitors. RSC Advance, 2016, 6, 111406-111414.

    [11]  G. S. Tong*, J. X. Wang, R. B. Wang, X. Q. Guo, L. He, F. Qiu, G. Wang, B. S. Zhu, X. Y. Zhu, T. Liu. Amorphous carbon dots with high two-photon fluorescence for cellular imaging passivated by hyperbranched poly(amino amine). Journal of Materials Chemistry B. 2015, 3, 700-706.

    [10]  D. L. Wang, G. S. Tong*, R. J. Dong, Y. F. Zhou, S. Jian*, X. Y. Zhu*. Self-assembly of supramolecularly engineering polymers and its biomedical applications. Chemical Communications, 2014, 50, 11994-12017.

    [9]  J. Ji, X. Z. Duan*, G. Qian, X.G. Zhou, G.S. Tong*, W. K. Yuan. Towards an efficient CoMo/γ-Al2O3 catalyst using metal amine metallate as an active phase precursor: Enhanced hydrogen production by ammonia decomposition. International Journal of Hydrogen Energy. 2014, 39, 12490-12498.

    [8]  Y. F. Shi, J. J. Wang*, S. J. Li, Z. Y. Wang, X. X. Zang, X. M. Zu, X. Y. Zhang, F. Guo, G. S. Tong*. Photoluminescence-enhanced CdTe quantum dots by hyperbranched poly(amido amine)s functionalization. Journal of Materials Research. 2013, 28, 1940-1946.

    [7]  F. Qiu, Q. Zhu, G. S. Tong*, L. J. Zhu, D. L. Wang, D. Y. Yan, X. Y. Zhu*. Highly fluorescent core-shell hybrid nanoparticles templated by a unimolecular star conjugated polymer for a biological tool. Chemical Communications, 2012, 48, 11954- 11956.

    [6]  G. S. Tong, T. Liu, S. M. Zhu, B. S. Zhu, D. Y. Yan, X. Y. Zhu, L. Zhao. Facile fabrication and application of Au@MSN nanocomposites with a supramolecular star-copolymer template. Journal of Materials Chemistry. 2011, 21, 12369-12374.

    [5]  G. S. Tong, T. Liu, L. Zhao, L. X. Hu, W. K. Yuan. Supercritical carbon dioxide assisted preparation of polypropylene grafted acrylic acid with high grafted content and small gel percent. The Journal of Supercritical Fluids. 2009, 48, 261-268.

    [4]  G. S. Tong, T. Liu, L. Zhao, G. H. Hu, W. K. Yuan. Supercritical carbon dioxide-assisted solid-state free radical grafting of methyl methacrylate onto polypropylene. The Journal of Supercritical Fluids. 2007, 41, 64-73.

    [3]  G. S. Tong, T. Liu, G. H. Hu, S. Hoppe, L. Zhao, W. K. Yuan. Modelling of the kinetics of the supercritical CO2 assisted grafting of maleic anhydride onto isotactic polypropylene in the solid state. Chemical Engineering Science. 2007, 62, 5290- 5294.

    [2]  G. S. Tong, T. Liu, L. Zhao, B. Y. Li, L. X. Hu, W. K. Yuan. Fractionation of PP-g-MAH prepared by scCO2 assisted solid-state grafting. Journal of Functional Polymers (Chinese). 2007, 19, 47-53.

    [1]  G. S. Tong, T. Liu, L. Zhao, L. X. Hu, W. K. Yuan. A kinetic study on the solid state grafting of maleic anhydride onto isotactic polypropylene in supercritical CO2. Studies in Surface Science and Catalysis. 2006, 159, 673-676.


  • 人才需求

    课题组常年招聘基础研究和产业化博士后,年薪30-50万;详见https://join.sjtu.edu.cn/Admin/QsPreview.aspx?qsid=7ae4290894ae4d7ab8bc2142a6cf7242

    目前尚需招收2023年硕士研究生2名;高津贴、无延期、好就业。

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