宋娜



    姓名:宋娜

    职务/职称:副研究员

    邮箱:snlxf@shu.edu.cn

    电话:021 66134726

    研究领域:功能复合材料、仿生材料


    工作经历:

    2009-07 至 今, 上海大学, 理学院 纳米科学与工程技术研究中心

    作为负责人主持国家自然青年基金、上海市自然基金探索类项目,中石油科技创新项目;参与国家重点专项、云南省重点专项等。在Chemical Engineering Journal、Carbon、ACS Applied Materials & Interfaces等杂志上发表SCI论文48篇,他引共计1605次,高被引3篇;入选2023年“全球Top 2%顶尖科学家”榜单;担任国际期刊Nano life杂志助理编辑;Adavanced Functional Material、Composites PART-A、Composites PART-B、ACS Applied Materials & Interfaces等材料TOP期刊审稿人。围绕多功能复合材料申请中国发明专利30项,授权17项。作为主要完成人参与的《高品质汽车和电器专用高分子复合材料核心技术开发及工业化应用》荣获上海市科技进步二等奖。


    代表性科研项目:

    1) 科技部,国家重点研发计划重点专项项目,知识与数据双驱动的树脂基复合材料智能设计共性关键技术研发与空间应用,2022-11 至 2025-10,在研,骨干人员;

    2) 云南省科技厅,云南省新材料重大专项,基于高分子材料应用的锡基功能助剂制备关键技术研发(子任务),2023-01 至 2025-12,在研,骨干人员;

    3) 云南锡业集团(控股)有限责任公司,锡铟材料基因工程专用数据库系统设计与建设,在研,骨干人员

    4) 国家青年自然基金,51703122,各向异性纳米纤维素/石墨烯导热材料的仿生构筑及机理研究, 2018/01-2020/12,已结题,主持;

    5) 中石油科技创新项目,2016D-5007-0508,导热增强型聚丙烯/石墨烯复合材料的制备及性能研究,2016/10-2018/09,已结题,主持;

    6) 上海市自然基金探索类,17ZR1440700,基于珍珠层仿生结构的纳米纤维素/石墨烯各向异性导热材料的制备及机理研究,2017/05-2020/04,20万元,已结题、主持;


    代表性学术论文:

    1) Song N*, Wang P, Jin LY, Zhang F, Wang ZF, Ding P. Tunable oriented cellulose/BNNSs films designed for high-performance thermal management. Chemical Engineering Journal, 2022, 437: 135404.

    2) Jiao D, Song N*, Ding P, Shi LY,. Enhanced thermal conductivity in oriented cellulose nanofibril/graphene composites via interfacial engineering.Composites Communications.2022,31:101101.

    3) Song N*, Zhang F, Cao DL, Wang P, Wang ZF, Ding P. Bicontinuous laminated structure design of polypropylene/reduced graphene oxide hybrid films for thermal management. Advanced Composites and Hybrid Materials. 2022, 5(4): 2873-2883.

    4) Song N*,Wang Q,Jiao DJ,Pan, HD,Shi LY,Ding P, Highly Thermally Conductive SiO2-coated NFC/BNNS Hybrid Films with Water Resistance, Composites, Part A: Applied Science and Manufacturing, 2021, 106261.

    5) Cui SQ, Song N*, Ding P, Shi LY, Enhanced Thermal Conductivity of Bioinspired Nanofibrillated Cellulose Hybrid Films Based on Graphene Sheets and Nanodiamonds,ACS Sustainable Chemical Engineering, 2020, 8, 6363-6370.

    6) Song N*, Cao DL, Luo X, Wang Q, Ding P, Shi LY, Highly thermally conductive polypropylene/graphene composites for thermal management. Composites, Part A: Applied Science and Manufacturing, 2020,135, 105912: 1-8.

    7) Song N*, Cao DL, Luo X, Guo YQ, Gu JW, Ding P., Aligned cellulose/nanodiamond plastics with high thermal conductivity. Journal of Material Chemistry C,2018, 6,13108-13113.

    8) Song N*, Pan HD, Liang XF,, Cao DL, Shi LY, Ding P.,Structural design of multilayer thermally conductive nanofibrillated cellulose hybrid film with electrical insulating and antistatic property.Journal of Material Chemistry C,2018,6,7085-7091.

    9) Song N*, Jiao DJ, Cui SQ, Hou XS, Ding P, Shi LY. Highly Anisotropic Thermal Conductivity of Layer-by-Layer Assembled Nanofibrillated Cellulose/Graphene Nanosheets Hybrid Films for Thermal Management. ACS Applied Materials & Interfaces. 2017, 9 (3), 2924–2932.

    10) Liang XF, Shi BZ, Wang K, Fan ML, Jiao DJ. Ao JP, Song N*, Wang C, Gu RJ, Li ZH*. Development of self-assembling peptide nanovesicle with bilayers forenhanced EGFR-targeted drug and gene delivery. Biomaterials. 2016, (82), 194-207..

    11) Song N*, Cui SQ, Hou XS, Ding P, Shi LY. Significant Enhancement of Thermal Conductivity in Nanofibrillated Cellulose Films with Low Mass Fraction of Nanodiamond. ACS Applied Materials & Interfaces. 2017, 9 (46), 40766–40773.

    12) Song N*, Cui SQ, Jiao DJ, Hou XS, Ding P, Shi LY. Layered nanofibrillated cellulose hybrid films as flexible lateral heat spreaders: The effect of graphene defect. Carbon. 2017 (115), 338-346.

    13) Song N*, Hou XS, Chen L, Cui SQ, Shi LY, Ding P. A Green Plastic Constructed from Cellulose and Functionalized Graphene with High Thermal Conductivity. ACS Applied Materials & Interfaces. 2017, 9 (21): 17914-17922..

    14) Song N*, Pan HD, Hou XS, Cui SQ, Shi LY, Ding P. Enhancement of thermal conductivity in polyamide-6/graphene composites via a “bridge effect of silicon carbide whiskers. RSC Advances. 2017, 7, 46306–46312..

    15) Song N*, Hou XS, Cui SQ, Ba CQ, Jiao DJ, Ding P, Shi LY. Polycarbonate Composites: Effect of Filler Type and Melt-Blending Process on the Light Diffusion Properties. Polymer Engineering and Science. 2017, 57: 374–380.

    16) Song N*, Jiao DJ, Ding P, Cui SQ, Tang SF, Shi LY. Anisotropic thermally conductive flexible films based on nanofibrillated cellulose and aligned graphene nanosheets. Journal of Material Chemistry C. 2016, (4), 305-314..

    17) Song N*, Yang JW, Ding P, Tang SF, Shi LY. Effect of Polymer Modifier Chain Length on Thermal Conductive Property of Polyamide 6/Graphene Nanocomposites. Composites Part A. 2015, (3), 232-241..

    18) Song N*, Yang JW, Ding P, Tang SF, Liu YM, Shi LY. Effect of Covalent-Functionalized Graphene Oxide with Polymer and Reactive Compatibilization on Thermal Properties of Maleic Anhydride Grafted Polypropylene. Industrial & Engineering Chemistry Research. 2014, 53 (51), 19951–19960..

    19) Jiang F, Cui SQ, Rungnim C, Song N, Shi LY, Ding P*. Control of a dual-cross-linked boron nitride framework and the optimized design of the thermal conductive network for its thermoresponsive polymeric composites. Chem. Mater. 2019, DOI: 10.1021/acs.chemmater.9b02551..

    20) Jiang F, Song N, Ouyang R, Ding P*. Wall Density-Controlled Thermal Conductive and Mechanical Properties of Three-Dimensional Vertically Aligned Boron Nitride Network-Based Polymeric Composites. ACS Applied Materials & Interfaces. 2021, 13, 7556-7666..


    (最后更新日期:2024.4.16)

    宋娜



      姓名:宋娜

      职务/职称:副研究员

      邮箱:snlxf@shu.edu.cn

      电话:021 66134726

      研究领域:功能复合材料、仿生材料


      工作经历:

      2009-07 至 今, 上海大学, 理学院 纳米科学与工程技术研究中心

      作为负责人主持国家自然青年基金、上海市自然基金探索类项目,中石油科技创新项目;参与国家重点专项、云南省重点专项等。在Chemical Engineering Journal、Carbon、ACS Applied Materials & Interfaces等杂志上发表SCI论文48篇,他引共计1605次,高被引3篇;入选2023年“全球Top 2%顶尖科学家”榜单;担任国际期刊Nano life杂志助理编辑;Adavanced Functional Material、Composites PART-A、Composites PART-B、ACS Applied Materials & Interfaces等材料TOP期刊审稿人。围绕多功能复合材料申请中国发明专利30项,授权17项。作为主要完成人参与的《高品质汽车和电器专用高分子复合材料核心技术开发及工业化应用》荣获上海市科技进步二等奖。


      代表性科研项目:

      1) 科技部,国家重点研发计划重点专项项目,知识与数据双驱动的树脂基复合材料智能设计共性关键技术研发与空间应用,2022-11 至 2025-10,在研,骨干人员;

      2) 云南省科技厅,云南省新材料重大专项,基于高分子材料应用的锡基功能助剂制备关键技术研发(子任务),2023-01 至 2025-12,在研,骨干人员;

      3) 云南锡业集团(控股)有限责任公司,锡铟材料基因工程专用数据库系统设计与建设,在研,骨干人员

      4) 国家青年自然基金,51703122,各向异性纳米纤维素/石墨烯导热材料的仿生构筑及机理研究, 2018/01-2020/12,已结题,主持;

      5) 中石油科技创新项目,2016D-5007-0508,导热增强型聚丙烯/石墨烯复合材料的制备及性能研究,2016/10-2018/09,已结题,主持;

      6) 上海市自然基金探索类,17ZR1440700,基于珍珠层仿生结构的纳米纤维素/石墨烯各向异性导热材料的制备及机理研究,2017/05-2020/04,20万元,已结题、主持;


      代表性学术论文:

      1) Song N*, Wang P, Jin LY, Zhang F, Wang ZF, Ding P. Tunable oriented cellulose/BNNSs films designed for high-performance thermal management. Chemical Engineering Journal, 2022, 437: 135404.

      2) Jiao D, Song N*, Ding P, Shi LY,. Enhanced thermal conductivity in oriented cellulose nanofibril/graphene composites via interfacial engineering.Composites Communications.2022,31:101101.

      3) Song N*, Zhang F, Cao DL, Wang P, Wang ZF, Ding P. Bicontinuous laminated structure design of polypropylene/reduced graphene oxide hybrid films for thermal management. Advanced Composites and Hybrid Materials. 2022, 5(4): 2873-2883.

      4) Song N*,Wang Q,Jiao DJ,Pan, HD,Shi LY,Ding P, Highly Thermally Conductive SiO2-coated NFC/BNNS Hybrid Films with Water Resistance, Composites, Part A: Applied Science and Manufacturing, 2021, 106261.

      5) Cui SQ, Song N*, Ding P, Shi LY, Enhanced Thermal Conductivity of Bioinspired Nanofibrillated Cellulose Hybrid Films Based on Graphene Sheets and Nanodiamonds,ACS Sustainable Chemical Engineering, 2020, 8, 6363-6370.

      6) Song N*, Cao DL, Luo X, Wang Q, Ding P, Shi LY, Highly thermally conductive polypropylene/graphene composites for thermal management. Composites, Part A: Applied Science and Manufacturing, 2020,135, 105912: 1-8.

      7) Song N*, Cao DL, Luo X, Guo YQ, Gu JW, Ding P., Aligned cellulose/nanodiamond plastics with high thermal conductivity. Journal of Material Chemistry C,2018, 6,13108-13113.

      8) Song N*, Pan HD, Liang XF,, Cao DL, Shi LY, Ding P.,Structural design of multilayer thermally conductive nanofibrillated cellulose hybrid film with electrical insulating and antistatic property.Journal of Material Chemistry C,2018,6,7085-7091.

      9) Song N*, Jiao DJ, Cui SQ, Hou XS, Ding P, Shi LY. Highly Anisotropic Thermal Conductivity of Layer-by-Layer Assembled Nanofibrillated Cellulose/Graphene Nanosheets Hybrid Films for Thermal Management. ACS Applied Materials & Interfaces. 2017, 9 (3), 2924–2932.

      10) Liang XF, Shi BZ, Wang K, Fan ML, Jiao DJ. Ao JP, Song N*, Wang C, Gu RJ, Li ZH*. Development of self-assembling peptide nanovesicle with bilayers forenhanced EGFR-targeted drug and gene delivery. Biomaterials. 2016, (82), 194-207..

      11) Song N*, Cui SQ, Hou XS, Ding P, Shi LY. Significant Enhancement of Thermal Conductivity in Nanofibrillated Cellulose Films with Low Mass Fraction of Nanodiamond. ACS Applied Materials & Interfaces. 2017, 9 (46), 40766–40773.

      12) Song N*, Cui SQ, Jiao DJ, Hou XS, Ding P, Shi LY. Layered nanofibrillated cellulose hybrid films as flexible lateral heat spreaders: The effect of graphene defect. Carbon. 2017 (115), 338-346.

      13) Song N*, Hou XS, Chen L, Cui SQ, Shi LY, Ding P. A Green Plastic Constructed from Cellulose and Functionalized Graphene with High Thermal Conductivity. ACS Applied Materials & Interfaces. 2017, 9 (21): 17914-17922..

      14) Song N*, Pan HD, Hou XS, Cui SQ, Shi LY, Ding P. Enhancement of thermal conductivity in polyamide-6/graphene composites via a “bridge effect of silicon carbide whiskers. RSC Advances. 2017, 7, 46306–46312..

      15) Song N*, Hou XS, Cui SQ, Ba CQ, Jiao DJ, Ding P, Shi LY. Polycarbonate Composites: Effect of Filler Type and Melt-Blending Process on the Light Diffusion Properties. Polymer Engineering and Science. 2017, 57: 374–380.

      16) Song N*, Jiao DJ, Ding P, Cui SQ, Tang SF, Shi LY. Anisotropic thermally conductive flexible films based on nanofibrillated cellulose and aligned graphene nanosheets. Journal of Material Chemistry C. 2016, (4), 305-314..

      17) Song N*, Yang JW, Ding P, Tang SF, Shi LY. Effect of Polymer Modifier Chain Length on Thermal Conductive Property of Polyamide 6/Graphene Nanocomposites. Composites Part A. 2015, (3), 232-241..

      18) Song N*, Yang JW, Ding P, Tang SF, Liu YM, Shi LY. Effect of Covalent-Functionalized Graphene Oxide with Polymer and Reactive Compatibilization on Thermal Properties of Maleic Anhydride Grafted Polypropylene. Industrial & Engineering Chemistry Research. 2014, 53 (51), 19951–19960..

      19) Jiang F, Cui SQ, Rungnim C, Song N, Shi LY, Ding P*. Control of a dual-cross-linked boron nitride framework and the optimized design of the thermal conductive network for its thermoresponsive polymeric composites. Chem. Mater. 2019, DOI: 10.1021/acs.chemmater.9b02551..

      20) Jiang F, Song N, Ouyang R, Ding P*. Wall Density-Controlled Thermal Conductive and Mechanical Properties of Three-Dimensional Vertically Aligned Boron Nitride Network-Based Polymeric Composites. ACS Applied Materials & Interfaces. 2021, 13, 7556-7666..


      (最后更新日期:2024.4.16)