丁鹏,男,博士,研究员,博士生导师,上海市优秀技术带头人。 毕业于中国科学技术大学高分子科学与工程系,获高分子化学与物理专业博士学位,一直致力于功能高分子复合材料相关的基础研究、技术开发和成果转化工作。 承担或完成国家自然科学基金、上海市科委科技攻关重点/重大项目、广东省省部产学研重大项目、上海市科委自然科学基金项目、上海市教委创新项目等;是中国复合材料学会导热专委会副秘书长、中国塑料加工工业协会专家委员会专家、上海改性塑料产学研创新联盟副秘书长、上海市塑料工程技术学会理事、上海市院士专家工作站技术专家;《上海塑料》、《塑料助剂》编委。
现已在Chem Mater、Carbon、ACS Appl Mater Interface、J Mater Chem C、Compos Sci Tech等期刊上发表论文50余篇,他引超过1400次;是Adv Mater、Adv Funct Mater、Carbon、ACS Appl Mater Interface、Composite Part A等期刊审稿人,被评为Composite Part A全球Top审稿人;公开专利50余项,授权19项。
入选上海市优秀学术/技术带头人计划。
获得2013年上海市技术发明二等奖(第一完成人)、2014年上海产学研合作优秀项目三等奖(负责人)、2008年上海市科技进步一等奖(主要完成人)、2010年上海市技术发明二等奖(主要完成人)、上海市育才奖、上海市人才发展基金等。
主要研究方向:
1) 高分子复合材料高性能化及功能化;
2) 智能导热高分子复合材料;
3) 高分子环保阻燃技术及机理;
4) 塑料再生及资源化。
联系方式:
Email: dingpeng@t.shu.edu.cn; Tel: +86-21-66134726
Web: https://www.researchgate.net/profile/Peng_Ding4
代表性学术论文:
1)Fang Jiang, Siqi Cui, Chompoonut Rungnim, Na Song, Liyi Shi, and Peng Ding*. Control of a Dual-Cross-Linked Boron Nitride Framework and the Optimized Design of the Thermal Conductive Network for Its Thermoresponsive Polymeric Composites. Chemistry of Materials, 2019, DOI: 10.1021/acs.chemmater.9b02551 影响因子IF= 10.159
2)Siqi Cui, Fang Jiang, Na Song, Liyi Shi, and Peng Ding*. Flexible Films for Smart Thermal Management: Influence of Structure Construction of a Two-Dimensional Graphene Network on Active Heat Dissipation Response Behavior. ACS Applied Materials & Interfaces, 2019, 11, 30352-30359 IF= 8.456
3)Fang Jiang, Siqi Cui, Na Song, Liyi Shi, and Peng Ding*. Hydrogen Bond-Regulated Boron Nitride Network Structures for Improved Thermal Conductive Property of Polyamide-imide Composites. ACS Applied Materials & Interfaces, 2018, 10, 16812-16821 IF= 8.456
4)Na Song*, Haidong Pan, Xiaofei Liang, Peng Ding*, Liyi Shi. Structural design of multilayer thermally conductive nanofibrillated cellulose hybrid film with electrically insulating and antistatic properties, Journal of Materials Chemistry C, 2018, 6(26), 7085-7091 IF= 6.641
5)Li Chen, Xingshuang Hou, Na Song, Liyi Shi, Peng Ding*. Cellulose/graphene bioplastic for thermal management: Enhanced isotropic thermally conductive property by three-dimensional interconnected graphene aerogel. Composites: Part A, 2018, 107, 189–196 IF= 6.282
6)Chen, L.; Song, N.; Shi, L.; Peng Ding*, Anisotropic Thermally Conductive Composite with Wood-derived Carbon Scaffolds. Composites: Part A, 2018, 112, 18 IF= 6.282
7)Na Song*, Siqi Cui, Dejin Jiao,Xingshuang Hou, Peng Ding*, Liyi Shi. Layered nanofibrillated cellulose hybrid films as flexible lateral heat spreaders: The effect of graphene defect. Carbon, 2017, 115, 338-346. IF= 7.466
8)Na Song, Xingshuang Hou, Siqi Cui, Chaoqun Ba, Dejin Jiao, Peng Ding*, Liyi Shi. Polycarbonate Composites: Effect of Filler Type and Melt-Blending Process on the Light Diffusion Properties, Polymer Engineering and Science, 2017, 54, 374-380 IF= 1.920
9)Na Song*, Dejin Jiao, Siqi Cui, Xingshuang Hou, Peng Ding* and Liyi Shi. Highly Anisotropic Thermal Conductivity of Layer-by-Layer Assembled Nanofibrillated Cellulose/Graphene Nanosheets Hybrid Films for Thermal Management. ACS Applied Materials & Interfaces, 2017, 9, 2924-2932 IF= 8.456
10)Na Song*, Xingshuang Hou, Li Chen, Siqi Cui, Liyi Shi, and Peng Ding*. A Green Plastic Constructed from Cellulose and Functionalized Graphene with High Thermal Conductivity. ACS Applied Materials & Interfaces, 2017, 9, 17914-17922 IF= 8.456
11)Na Song*, Siqi Cui, Xingshuang Hou, Peng Ding, and Liyi Shi. Significant Enhancement of Thermal Conductivity in Nanofibrillated Cellulose Films with Low Mass Fraction of Nanodiamond. ACS Applied Materials & Interfaces, 2017, 9, 40766-40773 IF= 8.456
12)Na Song*, Haidong Pan, Xingshuang Hou, Siqi Cui, Liyi Shi and Peng Ding*. Enhancement of thermal conductivity in polyamide-6/graphene composites via a “bridge effect” of silicon carbide whiskers. RSC Advances, 2017, 7, 46306–46312 IF= 3.049
13)Fang Jiang, Li Chen, Na Song, Liyi Shi, Peng Ding*. The influence of activated carbon fibers with different specific surface area on the thermal conductive and electrical insulating properties of polyamide-imide composites. High Voltage, 2017, 2(3), 161-166 IF= 3.508
14)Na Song*, Dejin Jiao, Peng Ding*, Siqi Cui, Shengfu Tang and Liyi Shi. Anisotropic thermally conductive flexible films based on nanofibrillated cellulose and aligned graphene nanosheets. Journal of Materials Chemistry C, 2016, 4, 305-314. IF= 6.641
15)Linbo Shao, Liyi Shi, Xuheng Li, Na Song, Peng Ding*. Synergistic effect of BN and graphene nanosheets in 3D framework on the enhancement of thermal conductive properties of polymeric composites. Composites Science and Technology, 2016, 135, 83-91 IF= 6.309
16)Xuheng Li, Linbo Shao, Na Song, Liyi Shi, Peng Ding*. Enhanced thermal-conductive and anti-dripping properties of polyamide composites by 3D graphene structures at low filler content. Composites: Part A, 2016, 88, 305–314. IF= 6.282
17)Wang, C.; Li, J.*; Peng Ding* Roles of supermolecule structure of melamine phosphomolybdate in intumescent flame retardant polypropylene composites. Journal of Analytical and Applied Pyrolysis, 2016, 119, 139. IF=3.470
18)Peng Ding*, Jin Zhang, Na Song, Shengfu Tang, Yimin Liu, Liyi Shi . Anisotropic thermal conductive properties of hot-pressed polystyrene/graphene composites in the through-plane and in-plane directions. Composites Science and Technology, 2015,109 : 25–31 IF= 6.309
19)Peng Ding*, Jin Zhang, Na Song, Shengfu Tang, Yimin Liu, Liyi Shi. Growing polystyrene chains from the surface of graphene layers via RAFT polymerization and the influence on their thermal properties. Composites: Part A, 2015, 69, 186–194. IF=6.282 20)Peng Ding*, Bai Kang, Jin Zhang, Jingwen Yang, Na Song, Shengfu Tang, Liyi Shi. Phosphorus-containing flame retardant modified layered double hydroxides and their applications on polylactide film with good transparency, Journal of Colloid and Interface Science, 2015,440, 46–52 IF= 6.361
21)Na Song *, Jingwen Yang, Peng Ding*, Shengfu Tang, Liyi Shi. Effect of polymer modifier chain length on thermal conductive property of polyamide 6/graphene nanocomposites. Composites: Part A, 2015,73: 232–241. IF= 6.282
22)Peng Ding*,Nan Zhuang, Xieliang Cui, Liyi Shi, Na Song and Shengfu Tang. Enhanced thermal conductive property of polyamide composites by low mass fraction of covalently grafted graphene nanoribbons. Journal of Materials Chemistry C, 2015, 3, 10990-10997. IF= 6.641
23)Anjie Tang, Peng Ding*, Na Song, Shengfu Tang, Liyi Shi n, Yu Zhao. Silicate micro-spheres modified with YPO4:Pr3þ particles: Possessing light diffusion and blue-light down-conversion properties, Materials Letters, 2015,161, 395–398 IF= 3.019
24)Xieliang Cui, Peng Ding*, Nan Zhuang, Liyi Shi, Na Song, and Shengfu Tang. Thermal Conductive and Mechanical Properties of Polymeric Composites Based on Solution-Exfoliated Boron Nitride and Graphene Nanosheets: A Morphology-Promoted Synergistic Effect. ACS Applied Materials & Interfaces, 2015, 7, 19068-19075 IF= 8.456
25)Tang, A.; Peng Ding*; Zhao, Y.; Song, N.; Shi, L. Optical and flame retardant behavior of polycarbonate composites containing perfluorodecyltriethoxysilane-modified silicate micro-spheres. Chemistry Letters, 2015, 44, 442. IF=1.485
26)Peng Ding*; Su, S.; Song, N.; Tang, S.; Liu, Y.; Shi, L., Highly thermal conductive composites with polyamide-6 covalently-grafted graphene by an in situ polymerization and thermal reduction process. Carbon, 2014, 66, (1), 576-584. IF= 7.466
代表性发明专利:
1) CN201610310346.0 插层组装氮化硼-石墨烯复合材料、应用及其制备方法(授权专利);
2) CN201410690013.6 一种聚合物接枝氧化石墨烯母粒及其制备方法(授权专利);
3) CN201410255528.3 一种多尺度复合功能母粒及其制备方法(授权专利);
4) CN201310414711.9 一种高导热尼龙6/石墨烯纳米复合材料及其制备方法(授权专利);
5) CN201310396079.X一种导热高分子-石墨烯复合材料的制备方法及制品(授权专利);
6) CN201310316965.7 一种光扩散复合材料及其制备方法(授权专利);
7) CN201310309026.X一种光扩散材料及其制备方法(授权专利);
8) CN201210144698.5 改性滑石粉填充的增强母粒及其制备方法(授权专利);
9) CN201210111185.4 光扩散剂、光分散材料及其制备方法(授权专利);
10) CN201210040103.1 适用于LED灯罩的聚碳酸酯复合材料及其制备方法(授权专利);
11) CN201110351808.0 一种高强阻燃聚丙烯改性材料及其制备方法(授权专利);
12) CN201110288666.8 废旧PET增韧增粘方法及实施该方法的PET粒料(授权专利);
13) CN201110257648.3 一种自支撑分子印迹聚合物膜的制备方法(授权专利);
14) CN201110075069.7 用以滑石粉为载体的纳米抗菌粉体来制备抗菌塑料制品的方法(授权专利);
15) CN201010588014.1 塑料填充用高含量超细无机粉体母粒的制备方法(授权专利);
16) CN200910200537.1 一种无卤阻燃、低气味聚丙烯/层状双氢氧化物纳米复合材料及其制备方法(授权专利);
17) CN200810037656.5 一种聚烯烃-层状双氢氧化物纳米复合材料的制备方法(授权专利);
18) CN200810037742.6 无卤高阻燃性能的增强聚对苯二甲酸乙二醇酯工程塑料及其制备方法(授权专利);
19) CN201910589115.1 一种导热石墨烯-高分子复合薄膜、制备方法及应用;
20) CN201910566309.X 一种绝缘高强纳米复合材料及其制备方法;
21) CN2019105902105.3 一中含有氮化硼气凝胶的高分子复合材料、制备方法及其应用;
22) CN201910566321.0 一种三维导热针刺毡聚酰胺复合材料及其制备方法;
23) CN201910553189.X 一种导热绝缘氮化硼高分子复合材料及制备方法;
24) CN201910232325.5 一种功能纳米纤维素-氮化硼复合薄膜及其制备方法;
25) CN201910185229.X 一种高通量防火等级UL-94材料阻燃性能测试方法及设备;
26) CN201810896071.2 一种高分子-三维碳骨架复合材料的制备方法、制品及应用;
27) CN201810806949.9 一种掺杂量子点功能化氮化硼聚合物导热复合膜及制备方法;
28) CN201810768948.X 一种塑料增强用高填充表面修饰碳纤维母粒及其制备方法;
29) CN201711313427.7 多层复合导热薄膜及其制备方法;
30) CN201710574107.0 各向异性导热的尼龙6/石墨烯纳米复合材料及其制备方法;
31) CN201710363435.6 一种纤维素塑料/石墨烯气凝胶复合物及其制备方法;
32) CN201710251764.1 石墨烯/氮化硼负载纳米银导热特种高分子材料及制备方法;
33) CN201710111293.4 透明绝缘的石墨烯复合导热薄膜及其制备方法;
34) CN201611045134.0 一种含有修饰石墨烯的导热母粒及其制备方法;
35) CN201610976692.2 一种尼龙6 石墨烯导热功能母粒及其制备方法;
36) CN201610813327.X 透明纳米纤维素-纳米金刚石导热复合膜及其制备方法;
37) CN201610315269.8 一种柔性纳米纤维素-石墨烯复合膜及其制备方法;
38) CN201610310346.0 插层组装氮化硼-石墨烯复合材料、应用及其制备方法;
39) CN201510317445.7 石墨烯/层状双氢氧化物无卤阻燃母粒及其制备方法;
40) CN201510261238.4 分子链排列有序的聚对苯二甲酸乙二醇酯的制备方法;
41) CN201410690013.6 一种聚合物接枝氧化石墨烯母粒及其制备方法;
42) CN201410255527.9 一种多元复合导热功能母粒及制备方法;
43) CN201410255528.3 一种多尺度复合功能母粒及其制备方法;
44) CN201410256283.6 一种多组分无卤阻燃母粒及制备方法;
45) CN201410161988.X具有蓝光屏蔽作用的光扩散剂及制备方法;
46) CN201410162641.7 具有蓝光屏蔽功能的光扩散膜;
47) CN201310123883.0 一种低密度阻燃聚丙烯纳米复合材料及其制备方法;
48) CN201310414713.8 一种光扩散薄膜及其制备方法;
49) CN201210179186.2 层状双氢氧化物纳米带的制备方法;
50) CN201210108969.1 聚对苯二甲酸乙二醇酯复合材料及其制备方法。
