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高洋洋,博士,北京化工大学副教授。目前以第一作者发表论文11篇,包括 Journal of Physical Chemistry B, Soft Matter, Polymer, Phys. Chem. Chem. Phys.等国际权威期刊。发表第二作者与其它作者共10篇,目前承担北京化工大学人才启动基金。
电子邮箱gaoyy135@126.comor gaoyy@mail.buct.edu.cn
教育与工作经历:
2016.9-现在 北京化工大学材料科学与工程学院副教授, 优秀青年后备人才
2014.9-2015.9 德国达姆斯塔特工业大学化学系, 联合培养博士
2011.9-2016.7 北京化工大学化学工程与技术专业, 本科直博
2007.9-2011.7 北京化工大学高分子材料与工程专业, 本科
获奖与荣誉:
2016年06月获得北京市 “优秀毕业生”称号
2015年11月获得“校三好学生”称号
2015年11月获得风神轮胎专项奖学金
2014年11月获得“校三好学生”称号
2014年11月获得博士生国家奖学金
2013年11月获得“校三好学生”称号
2013年11月获得硕士生国家奖学金
主要研究方向:
本人利用分子动力学模拟方法从分子水平上来考察聚合物纳米复合材料结构性能的关系,并与实验做比较来揭示内在机理,进而指导实验。当前,我的主要研究内容有:
1. 聚合物纳米复合材料导电导热性能机理研究;
2. 聚合物纳米复合材料机械强度与断裂机理研究;
3. 聚合物纳米复合材料界面结合机理研究;
论文发表:
1.Yangyang Gao, Jun Liu, Jianxiang Shen, Dapeng Cao and Liqun Zhang*. Microstructure and intercalation dynamics of polymer chains in layered sheets.RSC Advances. 2013, 3, 21655-21665. (IF="3.84)
2.Yangyang Gao, Jun Liu, Liqun Zhang* and Dapeng Cao. Existence of a Glassy Layer in the Polymer-Nanosheet Interface Evidence from Molecular Dynamics. Macromolecular theory and simulation. 2014, 23, 36-48. (IF="1.67)
3.Yangyang Gao, Jun Liu, Jianxiang Shen, Liqun Zhang* and Dapeng Cao. Molecular dynamics simulation of dispersion and aggregation kinetics of nanorods in polymer nanocomposites. Polymer. 2014, 55, 1273-1281. (IF="3.56)
4.Yangyang Gao,Jun Liu, Liqun Zhang* and Dapeng Cao. Uniaxial deformation of nanorod filled polymer nanocomposites a coarse-grained molecular dynamics simulation. Phys. Chem. Chem. Phys., 2014, 16, 16039-16048. (IF="4.49)
5.Yangyang Gao,Jun Liu, Jianxiang Shen,Youping Wu and Liqun Zhang*. Influence of various nanoparticle shapes on the interfacial chain mobility a molecular dynamics simulation. Phys. Chem. Chem. Phys., 2014, 16, 21372-21382. (IF="4.49)
6. Yangyang Gao,Jun Liu, Jianxiang Shen, Dapeng Cao and Liqun Zhang*. Molecular dynamics simulation of the rupture mechanism in nanorod filled polymer nanocomposites. Phys. Chem. Chem. Phys., 2014, 16, 18483-18492. (IF="4.49)
7.Yangyang Gao,Jun Liu, Dapeng Cao, Jianxiang Shen, Youping Wu and Liqun Zhang*. Molecular dynamics simulation of the conductivity mechanism of nanorod filled polymer nanocomposites. Phys. Chem. Chem. Phys., 2015, 17, 22959-22968. (IF="4.49)
8.Yangyang Gao,Florian Müller-Plathe*. Increasing the Thermal Conductivity of Graphene-Polyamide-6,6 Nanocomposites by Surface-Grafted Polymer Chains Calculation with Molecular Dynamics and the Effective-Medium Approximation. Journal of Physical Chemistry B. 2016, 120, 1336-1346. (IF="3.30)
9.Yangyang Gao, Jun Liu, Dapeng Cao, Youping Wu and Liqun Zhang*. Destruction and recovery of a nanorod conductive network in polymer nanocomposites via molecular dynamics simulation. Soft Matter. 2016, 12, 3074-3083.(IF="4.03)
10.Yangyang Gao, Dapeng Cao, Jun Liu, Youping Wu and Liqun Zhang*. Controlling the conductive network formation of polymer nanocomposites filled with nanorods through the electric field. Polymer. 2016, 101, 395-405. (IF="3.56)
11. Yangyang Gao, Youping Wu, Jun Liu and Liqun Zhang*. Controlling the electrical conductive network formation of polymer nanocomposites via polymer functionalization. Soft Matter. 2016, 12, 9738-9748.(IF="4.03)
12.Jianxiang Shen, Jun Liu, Yangyang Gao, Cao Dapeng, Liqun Zhang*. Revisiting the Dispersion Mechanism of Grafted Nanoparticles in Polymer Matrix: A Detailed Molecular Dynamics Simulation. Langmuir, 2011, 27, 15213. (IF="4.46)
13.Jun Liu, Wu Yan, Jianxiang Shen, Yangyang Gao, Liqun Zhang*, Dapeng Cao. Polymer-nanoparticle interfacial behavior revisited: A molecular dynamics study. Phys. Chem. Chem. Phys., 2011, 13, 13058. (IF="4.49)
14.Jun Liu, Wu Yan, Jianxiang Shen, Yangyang Gao, Liqun Zhang*, Dapeng Cao. Polymer-nanoparticle interfacial behavior revisited: A molecular dynamics study. Phys. Chem. Chem. Phys., 2011, 13, 13058. (IF="4.49)
15.Jun Liu, Yangyang Gao, Liqun Zhang*, Dapeng Cao. Nanoparticle Dispersion and Aggregation in Polymer Nanocomposites: A Molecular Dynamics Simulation. Langmuir, 2011, 27, 15213. (IF="4.46)
16.Jun Liu, Liqun Zhang*, Dapeng Cao, Jianxiang Shen, Yangyang Gao. Computational simulation of elastomer nanocomposites: current progress and future challenges. Rubber Chemistry and Technology. 2012, 85, 450. (IF=0.88)
17.Jun Liu, Yong-Lai Lu, Ming Tian, Fen Li, Jianxiang Shen, Yangyang Gao, Liqun Zhang*. The Interesting Adjusting of "Nanospring" on the Viscoelasticity of Elastomeric Polymer Materials: Simulation and Experiment. Advanced Functional Materials. 2013, 23, 1156. (IF="11.8)
18.Jianxiang Shen, Jun Liu, Haidong Li, Yangyang Gao, Xiaolin Li, Youping Wu and Liqun Zhang. Molecular dynamics simulations of the structural, mechanical and visco-elastic properties of polymer nanocomposites filled with grafted nanoparticles. Phys. Chem. Chem. Phys., 2015, 17, 7196. (IF="4.49)
19.Jun Liu, Jianxiang Shen, Yangyang Gao, Huanhuan Zhou, Youping Wu, Liqun Zhang*. Detailed simulation of the role of functionalized polymer chains on the structural, dynamic and mechanical properties of polymer nanocomposites. Soft Matter. 2014, 10, 8971. (IF="4.03)
20.Lu Wang, Hongji Liu, Fanzhu Li, Jianxiang Shen, Zijian Zheng, Yangyang Gao, Jun Liu*, Youping Wu and Liqun Zhang*. Stress-strain behavior of block-copolymers and their nanocomposites filled with uniform or Janus nanoparticles under shear: a molecular dynamics simulation. Phys. Chem. Chem. Phys., 2016, 18, 27232-27244. (IF="4.49)
21.Jun Liu, Zijian Zheng, Fanzhu Li, Weiwei Lei, YangyangGao, Youping Wu, Liqun Zhang*, ZhongLinWang*. Nanoparticle chemically end-linking elastomer network with super-low hysteresis loss for fuel-saving automobile. Nano Energy, 2016, 28, 87-96. (IF="11.5)
参加学术会议:
1.高洋洋,刘军,张立群;Poster交流,分子动力学模拟研究纳米片填料附近聚合物结构与动力学行为,第六届国际分子模拟与信息技术应用会,南京, 2012年5月。
2.高洋洋,刘军,张立群;口头报告,分子动力学模拟研究纳米杆增强聚合物纳米复合材料力学性能及机理,第六届亚洲-欧洲增强聚合物材料加工与性能学术研讨会,武汉,2013年6月。
3.高洋洋,刘军,张立群;口头报告;分子模拟研究纳米杆填料在聚合物基体中的分散与聚集行为;山东玲珑轮胎学术交流会,2014年4月。
4.高洋洋,刘军,张立群;Poster交流,分子动力学模拟研究纳米杆增强聚合物纳米复合材料的断裂性能及机理;第一届中国国际复合材料科技大会,北京,2014年9月。
5.高洋洋,刘军,张立群;口头报告,分子模拟研究不同填料形状对界面聚合物动力学行为的影响;集成分子/材料科学与工程国际研讨会,北京,2014年9月。
6.高洋洋,刘军,张立群;Poster交流,中国化学会2016年软物质理论计算与模拟,天津,2016年8月。
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发表于 2017-3-14 14:34:55
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