张兴华

博士、教授

基本信息

办公电话:+86-10-51688483 电子邮件: zhangxh@bjtu.edu.cn
通讯地址:北京交通大学理学院 邮编:100044

教育背景

2019/12-           ,北京交通大学, 物理系,教授、博士生导师
2012/06-2019/12,北京交通大学, 物理系,讲师、副教授、博士生导师
2011/01-2012/05,北京师范大学,物理系,访问学者
2011/06-2011/09,加拿大滑铁卢大学,物理与天文系,访问科学家
2009/07-2010/12,美国科罗拉多州立大学,生物与化学工程系,博士后
2005/09-2009/06,中国科学院,化学研究所,博士(高分子物理)
2002/09-2005/06,东北师范大学,物理学院,硕士(理论物理)
1998/09-2002/06,东北师范大学,物理学院,学士(物理学)

工作经历

北京市青年名师

入选北京交通大学首批青年英才计划


研究领域
1、统计物理与复杂系统
2、软物质物理与高分子物理
3、城市复杂系统与城市大数据

研究方向

  • 物理与交叉学科
  • 光电信息工程
  • 材料工程

招生专业

  • 物理学硕士
  • 光电信息工程硕士
  • 物理学博士
  • 材料工程博士

科研项目

国家自然科学基金
  • "面上项目":脂滴生物学起源的高分子动态平均场理论研究
    2022-01-01--2025-12-31,60万元,主持
  • "面上项目":偶氮高分子薄膜对非均匀光场响应性质的理论研究
    2018-01-01--2021-12-31,67万元,主持
  • "面上项目":蠕虫链高分子模型的高斯涨落理论及应用
    2016-01-01--2019-12-31,65万元,主持
  • "青年基金":受限条件下半刚性高分子体系的相行为的理论研究
    2014-01-01--2016-12-31,25万元,主持
  • 国家自然科学基金委员会-广东省政府联合基金(第二期)超级计算科学应用研究专项资助(天河II号)
    2016-01-01--2016-12-31,主持
  • "面上项目":高效净化氯代恶臭废气微粒分子调控制备、性能及应用
    2014-01-01--2017-12-31,90.0万元,参加(第一参加人)

省部级课题

  • 北京市社会科学基金"重点项目":基于智慧管理的北京城市韧性指标体系与提升方案研究
    2022-01-01--2022-12-31,15万元,主持
  • 北京市自然科学基金"面上项目":手性对称性在高分子体系的各级尺度间传递的理论研究
    2018-01-01--2020-12-31,20万元,主持
  • 教育部留学回国人员基金:蠕虫状链体系的各向同性、各向异性转变
    2014-01-01--2015-12-31,3.0万元,主持

其他项目

  • 世界银行,中国可持续城市综合方式试点项目
    城市层面以公共交通为导向的城市发展(TOD)战略的制定与实施以及项目管理支持
    2020-01 至 今,在研,外部专家

  • 国家重点实验室开放课题
  • 北京交通大学人才启动基金、基本科研业务费等
  • 事业单位和企业横向课题项目

教学工作

  • 北京市青年名师、北京市教育系统育人先锋
  • 北京交通大学优秀主讲教师,优秀实验指导教师,三育人先进个人,校级教学促进师(第三批)
  • 全校公共基础课《大学物理》课程负责人,物理演示与探索实验室负责人
  • 主讲《热力学与统计物理》、《基础物理》、《大学物理》、《物理学导论》、《大学物理实验》和《近代物理实验》等课程

论文/期刊

2024

66. Researching Organic Solar Cells from the Perspective of Literature Big Data Analysis, Qing Wang, Zhixin Liu, Shengda Zhao, Yangjun Yan, Xinyi Li, Yajie Zhang*, Xinghua Zhang* Advanced Intelligent Systems, Wiley, 2024.

65. Non-additive Effective Interactions and Entropy-Driven Non-close-Packed Self-Assembly Cluster of Nanoparticle in Ordered Block Copolymer Structure, Zhixin Liu, Jing Zhang, Shengda Zhao, Yangjun Yan, Xinjie Li, Xinghua Zhang* Macromolecules, 2024, 57 (4) 1478-1488.

64. Phase Behavior of Linear-Star Topology-Transformable Block Copolymers, Shengda Zhao, Jiaxin Yu, Zhixin Liu, Jing Zhang, Yangjun Yan, Quanxiao Dong*, An-Chang Shi*, Xinghua Zhang*, Macromolecules, 2024, 57, 8, 3831–3840.

63. Rapid Preparation Triggered by Visible Light for Tough Hydrogel Sensors with Low Hysteresis and High Elasticity: Mechanism, Use and Recycle-by-Design, Qi Liu, Ming-Wei Xie, Cheng-Hao Wang, Ming-Ming Deng, Ping Li, Xu-Lin Yang, Ni-Hui Zhao, Chi Huang*, Xing-Hua Zhang* Small, 2024, 20 (32) 2311647.

62. Stereoisomeric Non-Fullerene Acceptors-Based Organic Solar Cells, Lixuan Liu, Yangjun Yan, Shengda Zhao, Tong Wang, Wenqing Zhang, Jianqi Zhang, Xiaotao Hao, Yajie Zhang*, Xinghua Zhang*, and Zhixiang Wei*,  Small, 2024, 20 (3) 2305638 1-9. Editor's Choice

61. A Q-learning Method Based on Coarse-to-Fine Potential Energy Surface for Locating Transition State and Reaction Pathway, Wenjun Xu, Yanling Zhao, Jialu Chen, Zhongyu Wan, Dadong Yan*, Xinghua Zhang*, Ruiqin Zhang*, Journal of Computational Chemistry, 2024, 45 (8) 487-497.

60. Microphase Separation of Semiflexible Ring Diblock Copolymers, Dan-Yan Qin, Sheng-Da Zhao, Zhi-Xin Liu, Jing Zhang, and Xing-Hua Zhang*, Chinese Journal of Polymer Science, 2024, 42 (2) 267-276.


2023
59. Molecular Orientation-Dependent Exciton Separation in Optimized Single-Component Y6 Organic Solar Cells, Yangjun Yan, Shengda Zhao, Yajie Zhang*, Tong Wang, Yanan Shi, Dingding Qiu, Jianqi Zhang, Lingyun Zhu, Mengni Wang, Jiawei Qiao, Xiaotao Hao, Xinghua Zhang*, Zhixiang Wei*, Solar RRL, 2023, 7 (18), 2300342 1-10.

58. Self-Assembled Tetratic Crystals by Orthogonal Colloidal Force, Shanshan Li, Jingwen He, Shuoyuan Qiao, Xinghua Zhang, Bing Liu*, Small, 2023, 19, 2300642 1-8.

57. Magnetic Hydrogel: A High-performance, Multi-application Material, Chi Huang, Mingwei Xie, Qi Liu*, Qiwen Yong, and Xinghua Zhang*, Polymer Bulletin, 2023, 36 (1) 54-68.


2022

56. Simultaneously Decreasing the Bandgap and Voc Loss in Efficient Ternary Organic Solar Cells, Yangjun Yan, Yajie Zhang*, Yanan Liu, Yanan Shi, Dingding Qiu, Dan Deng, Jianqi Zhang, Boxin Wang, Muhammad Abdullah Adil, Kamran Amin, Waqar Ali Memon, Mengni Wang, Huiqiong Zhou, Xinghua Zhang* and Zhixiang Wei*, Advanced Energy Materials,  2022,12 (20) 2200129.

55. The role of entropy gains in the exciton separation in organic solar cells, Yangjun Yan, Yajie Zhang*, Waqar Ali Memon, Mengni Wang, Xinghua Zhang* and Zhixiang Wei*Macromolecular Rapid Communications,  2022, 43 (16) 2100903.

54. Markov Transition Fields and Deep Learning based Event-Classification and Vibration-Frequency Measurement for φ-OTDR, Xiaoting Zhao, Hongbin Sun, Bo Lin, Hongmin Zhao, Yingli Niu, Xiang Zhong, Yidan Wang, Yiming Zhao, Fanchao Meng, Jinmin Ding, Xinghua Zhang, Liang Dong, and Sheng Liang,  IEEE Sensors Journal, 2022, 22 (4), 3348-3357.


2021

53. Enhanced Heterogeneous Diffusion of Nanoparticles in Semiflexible Networks, Ziyang Xu, Xiaobin Dai, Xiangyu Bu, Ye Yang, Xuanyu Zhang, Xingkun Man, Xinghua Zhang*, Masao Doi and Litang Yan*, ACS Nano,  2021 15 (3) 4608-4616.

52. Self-assembly of shape-tunable oblate colloidal particles into orientationally ordered crystals, glassy crystals and plastic crystals, Jiawei Lu, Xiangyu Bu, Xinhua Zhang* and Bing Liu*, Soft Matter, 2021, 17 (26), 6486-6494.

51. The Use of Machine Learning to Efficiently Predict the Confinement Loss in Anti-Resonant Hollow-Core Fiber, Fanchao Meng, Xiaoting Zhao, Jinmin Ding, Yinli Niu, Xinghua Zhang, Mateusz Smietana, Ryszard Buczynski, Bo Lin, Guangming Tao, Luyun Yang, Xing Wang, Shuqin Lou, Xinzhi Sheng, and Liang Sheng*, Optics Letters, 2021 46 (6) 1454-1457.

50. Discovering extremely low confinement-loss anti-resonant fibers via swarm intelligence, Fanchao Meng, Xiaoting Zhao, Jinmin Ding, Yingli Niu, Xinghua Zhang, Luyun Yang, Xin Wang, shuqin lou, xinzhi sheng, Guangming Tao*, and Sheng Liang*, Optics Express, 2021 29 (22) 35544-35555.

49. Single Chain Mean-Field Theory Study on Responsive Behavior of Semiflexible Polymer Brush, Yingli Niu, Xiangyu Bu*, Xinghua Zhang*, Materials, 2021 14 (4) 778, Invited.


2020

48. Regulation mechanism of bubbling deformation and fracture toughness of the membrane by asymmetry phospholipid : a model system study, Yang Yang, Xiangyu Bu, and Xinghua Zhang*, Langmuir,  2020 36 (34) 10138-10146.

47. The influence of side-chain conformations on the phase behavior of bottlebrush block polymers, Yuguo Chen, Xinghua Zhang*, and Ying Jiang*, Soft Matter, 2020 16 (34) 8047-8056.

46. Neural Network Model for Structure Factor of Polymer Systems, Jie Huang, Shiben Li*, Xinghua Zhang*, and Gang Huang, The Journal of Chemical Physics,  2020 153 (12) 124902.

45. The responsive behaviors of bilayer membrane under uniaxial mechanical probe, Baopi Liu , Xinghua Zhang*, and Dadong Yan*, The Journal of Chemical Physics,  2020 152 (10) 104901.

44. A Local-Exchange Model of Folding Chain Surface of Polymer Crystal Based on Worm-Like Chain Model within Single-Chain in Mean-Field Theory, HongYi Xiao, Xinghua Zhang*, and Dadong Yan*, Polymers, 2020 12 (11) 2555, Invited. 

43. Influence of Small-Scale Correlation on the Interface Evolution of Semiflexible Homopolymer Blends, Xinxiang Chen, Shuanhu Qi*, Xinghua Zhang*, and Dadong Yan*, ACS Omega, 2020 5 (13) 7593−7600.


2019

42. Entropy-Mediated Mechanomutable Microstructures and Mechanoresponsive Thermal Transport of Nanoparticle Self-Assembly in Block Copolymers, Xiaobin Dai, Pengyu Chen, Guolong Zhu, Ziyang Xu, Xinghua Zhang*, Li-Tang Yan*, The Journal of Physical Chemistry Letters, 2019 10 (24) 7970-7979 (Letter).

41. Bistable Adhesion Behavior of an Anisotropic Particle on Sliding Polymer Brush, Xiangyu Bu, Yang Yang, Xinghua Zhang*, Soft Matter, 2019 15 (46) 9418-9425. 封底文章.

40. Theoretical Study of the Optimal Design of a UV-Controllable Smart Surface Decorated by a Hybrid Azobenzene-Containing Polymer Layer, Xiangyu Bu, Shuangshuang Zhang, Xinghua Zhang*, Tongchuan Suo*, Langmuir,  2019 35 (43) 14141-14149.

39. Fusion and clustering of spherical micelles by extruding through a cylindrical channel, Manman Chen, Xinghua Zhang, Hui Zhang*, RSC Advances, 2019 9 (42) 24394-24400.

38. Sheng Liang, Xiaoting Zhao, Ruijun Liu*, Xiaodong Zhang*, Liang Wang, Xinghua Zhang, Yisheng Lv, and Fanchao Meng, Fiber-optic Auditory Nerve of Ground in the Suburb: for Traffic Flow Monitoring, IEEE Access, 2019 7 (1) 166704-166710.


2018

37.Flexible VO x Nanosphere@SWCNT Hybrid Films with Dual-Confinement Function of Polysulfides for High-Performance Lithium-Sulfur Batteries, Miao Zhang, Yang Yang, Xinghua Zhang, Meng Cheng, Hongxin Yuan, Kamran Amin, Aziz Ahmad, Lijuan Mao,* Wei Yan,* and Zhixiang Wei*, Adv. Mater. Interfaces 2018 18 (5) 1800766.

2017

36. Optimal Reactivity and Improved Self-Healing Capability of Structurally-Dynamic Polymers Grafted on Janus Nanoparticles Governed by Chain Stiffness and Spatial Organization, Guoxi Xu, Zihan Huang, Pengyu Chen, Tianqi Cui, Xinghua Zhang*, Bing Miao* and Li-Tang Yan*, Small 2017 13 (13) 1603155. 封面文章

35. Light-responsive expansion-contraction of spherical nanoparticle grafted with azopolymers, Jie Fu, Xinghua Zhang*, Bing Miao* and Dadong Yan*, The Journal of Chemical Physics, 2017 146 (16) 164901. 3

34. Modulated synthesis of zirconium metal–organic framework UiO-66 with enhanced dichloromethane adsorption capacity, Lin Zhou, Xinghua Zhang*, Yunlin Chen*, Materials Letters 2017 197 167-170.

33. Facile synthesis of Al-fumarate metal–organic framework nano-flakes and their highly selective adsorption of volatile organic compounds, Lin Zhou, Xinghua Zhang*, Yunlin Chen*, Materials Letters 2017 197 224-227.


2016

32. Estimation of the Desorption Energy of Dichloromethane and Water in MIL-53 by DSC and ab-initio Calculations, Mingyang Wang, Xinghua Zhang*, Yunlin Chen*, and Ao Zhang, Science China, Chemistry 2016 59 (4) 398-404. 3

31. Microphase separation of short wormlike diblock copolymers with finite interaction range, Ying Jiang, Xinghua Zhang*, Bing Miao*, and Dadong Yan, Jeff Z. Y. Chen, Soft Matter 2016 12 (8) 2481-2490. 2

30. Numerical simulation of the role of ferroelectric polymer interfacial layer in organic solar cells, Bo Liu, Feng Xu, Xinghua Zhang, Dadong Yan and Dan Lu*, Physical Chemistry Chemical Physics 2016 18 (7) 5412-5418. 2

29. Activated MIL-53(Al) for Efficient Adsorption of Dichloromethane and Trichlormethane, Mingyang Wang, Xinghua Zhang*, Lin Zhou, Yunlin Chen*, Aerosol and Air Quality Research 2016 16 2003-2010. 3

28.  Preparation of zeolitic imidazolate framework-8 /graphene oxide composites with enhanced VOCs adsorption capacity, Yang Zhou, Lin ZhouXinghua Zhang, Yunlin Chen*, Microporous and Mesoporous Materials 2016 225 488-493. 2

27. Fabrication and Photoluminescence Property of ZnO Nanoparticle/Metal–Organic Framework Hybrid Material, Fengming Tian,  Xinghua Zhang, Yunlin Chen*, Chemistry Letters 2016 45(4) 388-390.

26. How Guest Molecules Stabilize the Narrow Pore Phase of Soft Porous Crystal: Structural and Mechanical Properties of MIL-53(Al)⊃H2O, Mingyang Wang,  Xinghua Zhang*, Yunlin Chen*, Dan Li. The Journal of Physical Chemistry C 2016 120 (9) 5059-5066. 2

25. Amino-functionalized metal-organic framework for adsorption and separation of dichloromethane and trichloromethane, Fengming Tian,  Xinghua Zhang, Yunlin Chen*, RSC Advances 2016 6 (68) 63895-63904. 3

24. Structure Factor Based on the Wormlike-chain Model of Single Semiflexible Polymer, Yang Yang, Xiangyu BuXinghua Zhang*. Acta Polymerica Sinica 2016 8 1002, Invited.

23. Highly selective adsorption and separation of dichloromethane/trichloromethane on copper-based metal organic framework, Fengming Tian,  Xinghua Zhang, Yunlin Chen*, RSC Advances 2016 6(37) 31214-31224. 3

22. Recent development on the theory of polymer crystallization, Dadong Yan*, Xinghua Zhang, Acta Phys. Sin. 2016 65 (18) 188201, Invited.

21. Scattering and Gaussian fluctuation theory for semiflexible polymers, Xiangyu Bu, Xinghua Zhang*, Polymers 2016 8 (9) 301 Invited. 2

20. Diffusion and Directionality of Charged Nanoparticles on Lipid Bilayer Membrane, Pengyu Chen, Zihan Huang, Junshi Liang, Tianqi Cui, Xinghua Zhang, Bing Miao*, and Li-Tang Yan*, ACS Nano 2016 10 (12) 11541-11547. 1


2015

19. The study of the structure factor of a wormlike chain in an orientational external field, Ying Jiang, Xinghua Zhang*, Bing Miao, and Dadong Yan, The Journal of Chemical Physics 2015 142 (15) 154901.

18. Influence of Extraction Barrier on the Loss Process of Photogenerated Charge Carrier in Polymer Bulk Heterojunction Solar Cells, Bo Liu, Feng Xu, Xinghua Zhang, Dadong Yan*, Dan Lu*, Chem. Res. Chin. Univ. 2015 31 (5) 809-813.

17. Phase diagram of rod-coil diblock copolymer melts, Jiuzhou Tang, Ying Jiang, Xinghua Zhang, Dadong Yan, and Jeff Z. Y. Chen, Macromolecules 2015 48 (24) 9060-9070. 1

16. Compression induced phase transition of nematic brush: a mean-field theory study, Jiuzhou Tang, Xinghua Zhang*, and Dadong Yan*, The Journal of Chemical Physics 2015 143 (20) 204903.


2014

15. Zeolites developed from mixed alkali modified coal fly ash for adsorption of volatile organic compounds, Lin Zhou, Yunlin Chen*, Xinghua Zhang, Zinan Zu, Fengming Tian, Materials Letters 2014 119 140-142. 

14. Advances in Theory of Polymer Crystallization, Xinghua Zhang*, Dadong Yan*, Acta Polymerica Sinica 2014 8 1041.

13. Volume phase transition of polyelectrolyte gels: Effects of ionic size, Li-Jian Qu, Xinghua Zhang, Jiuzhou Tang, Lin Li, and Dadong Yan*, Journal of Chemical Physics 2014 141 104905.

12. Structure factor of a wormlike chain and the random-phase-approximation solution for the spinodal line of a diblock copolymer melt, Xinghua Zhang, Ying Jiang*, Bing Miao*, Yunlin Chen, Dadong Yan, and Jeff Z. Y. Chen*, Soft Matter 2014 10 5405.


2013

11. Mean Field Theory and the 1/N Expansion in Polymer Physics, Wen-Wu Li,Dong Qiu,Xinghua Zhang*. Acta Polymerica Sinica 2013 2 160.

10. Effects of Attractive Colloids on the Phase Separation Behaviors of Binary Polymer Blends, Xinghua Zhang*, Yunlin Chen, Lijian Qu and Dadong Yan. Journal of Chemical Physics 2013 139 (7) 074902.


2012

9. Structures and Interactions between Two Colloidal Particles in Adsorptive Polymer Solutions, Wenwu Li, Xingkun Man, Dong Qiu, Xinghua Zhang, and Dadong Yan. Polymer 2012 53 3409.

8. Spinodal assisted growing dynamics of critical nucleus in polymer blends, Xinghua Zhang, Shuanhu Qi, and Dadong Yan. Journal of Chemical Physics 2012 137 184903.

7. Fast off-lattice Monte Carlo simulations of soft-core spherocylinders, Jing Zong, Xinghua Zhang, and Qiang Wang. Journal of Chemical Physics 2012 137 134904.


Before 2012

6. Structural properties and photoluminescence of ZnO nanowalls prepared by two-step growth with oxygen-plasma assisted molecular beam epitaxy, Xinghua Zhang, Yichun Liu, XiaoHua Wang, et al.. Journal of Physics Condensed Matter 2005, 17, 3035.

5. A novel method for measuring distribution of orientation of one-dimensional ZnO using resonance Raman spectroscopy, Xinghua Zhang, Yichun Liu, Shihao Chen. Journal of Raman Spectroscopy 2005, 36, 1101.

4. Nucleation induced by phase separation in the interface of polyolefin blend, Xinghua Zhang, Xingkun Man, Charles C. Han. Polymer 2008, 49, 2368.

3. External potential dynamic studies on the formation of interface in polydisperse polymer blends, Shuanhu Qi, Xinghua Zhang, and Dadong Yan, Journal of Chemical Physics 2010, 132, 064903.

2. Self-consistent field theory and its applications in polymer systems, Dadong Yan, Tongchuan Suo, Xinghua Zhang, Xingkun Man, Bing Miao, Frontiers of Chemistry in China 2011, 6, 310.

1. Quantitative Study of Fluctuation Effects by Fast Lattice Monte Carlo Simulations. I. Compressible Homopolymer Melts, Pengfei Zhang, Xinghua Zhang, Baohui Li, and Qiang Wang*, Soft Matter 2011, 7, 4461.

专著/译著

《高分子物理理论专题》 “十三五”国家重点出版物出版规划项目,软物质前沿科学丛书,严大东,张兴华,苗 兵 著,科学出版社,2021.

专利

6. 基于自旋玻璃模型的智能交通信号灯调控方法及系统
   发明人: 赵胜达   柳哲坤   俱博成   张兴华   张晓东   王良   许丹丹  ,CN116363876A
5. 地铁网络系统稳定性监测控制方法、系统和设备
   发明人: 张兴华   李欣怡,CN116822762A
4. 一种面向地铁网络的疫情密接人群追溯方法
   发明人: 谢良惠   宫大庆   张真继   刘世峰   张兴华   闫晓杰,CN114694850B, 2023.03.21
3. 交通态势预测方法、装置、设备及存储介质,
    发明人:张晓东、张兴华、王良、赵胜达、陈易辰、魏贺、许丹丹、韩雪华,CN115049167B, 2022.08.16
2. 基于街景图片的小微空间识别方法、装置及电子设备,
    发明人:王良、张晓东、海振坤、陈易辰、张兴华、吴运超、程辉、顾重泰、郭逸阳,CN115359346B,2023.01.05
1. 就业中心识别方法、装置、电子设备及存储介质,
    发明人:张晓东、王良、许丹丹、梁弘、张兴华、崔鹤、陈猛、胡腾云、孙道胜,CN115438138B,2023.01.13

学术邀请报告

17. 2023年 the 9th International Conference on Nanoscience and Technology, China (ChinaNANO 2021),Beijing, invited speaker and session chair.

16. 2023年 中国化学会2023年软物质理论计算与模拟会,吉林大学。

15. 2022年 IEEE International Conference on Intelligent Transportation Systems (ITSC 2022)国际智能交通系统大会, CPSS (Cyber-Physical-Social System) based Complex City Systems, invited speaker.

14. 2021年 IEEE International conference on Digital Twins and Parallel Intelligence (DPDI 2021)国际平行智能与数字孪生大会, Parallel city with DTs, invited speaker.

13. 2021年 The 6th Sino-EU Doctoral Summer School for Logistics, Information, Management, and Service Science, Keynote Speaker.

12. 2019年 the 8th International Conference on Nanoscience and Technology, China (ChinaNANO 2019),Beijing, invited speaker and session chair.

11. 2018年高分子流体动力学前沿论坛,中国科学院长春应用化学研究所。

10. 2018年中国化学会软物质理论计算与模拟学术会议,华东理工大学。

9. 2018年新颖材料计算设计与发掘前沿会议会议,东北师范大学。

8. 2018年软物质与生物物理理论研讨会,中国科学院理论物理研究所。

7. 2017年中国化学会第十四届全国计算(机)化学学术会议,偶氮高分子体系响应性质的理论研究,南京大学

6. 2017年第一届超分子自组装理论模拟研讨会,蠕虫链高分子的自组装,吉林大学。

5. 2017年第十届全国软物质与生命物质物理学术会议,蠕虫链模型的平均场理论及在纳米复合体系中的应用,厦门大学。

4. 2016年中国化学会软物质理论计算与模拟学术会议,蠕虫链高分子模型的单链平均场理论及应用,南开大学。

3. 2015年 Program of the Kavli Institute for Theoretical Physics China at the Chinese Academy of Sciences (KITPC), Controlled structural formation of soft matter,中国科学院卡弗里理论物理研究所。

2. 2015年 The 8th International Congress on Industrial and Applied Mathematics (ICIAM),
Minisymposia of Modeling and Simulation of Complex Fluids and Biological Systems,北京。

1. 2014年第九届全国软物质与生命物质物理学术会议, 蠕虫链模型的结构因子及其多尺度特性,温州大学

课题组荣誉

4. 2023年 第八届中欧物流、信息化、管理和服务科学博士生院暑期学校:最佳口头汇报奖:张静
3. 2023年 第四届软物质科学与技术国际学术研讨会:最佳海报奖:张静;
2. 2023年 中国化学会软物质理论计算与模拟学术会议:最佳海报奖:赵胜达
1. 2022年 2021-2022学年北京交通大学优秀博士学位论文:步项禹


获奖与荣誉

26. 2024年北京市教育系统教书育人先锋

25. 2022年智谨优秀青年教师奖

24. 2022年北京高校优质本科教案(2/5)

23. 2022年北京市教学成果二等奖“强科学实践,重信息技术”虚实相济的一流大学物理课程探索与实践》(4/15)

22. 2022年北京市课程思政示范课、课程思政示范团队(2/5)

21. 2021年北京交通大学教学成果二等奖大学物理学的虚拟仿真实验项目建设与教学实践》(1/5)

20. 2021年北京交通大学教学成果二等奖基于 MOODLE技术的大学物理自主学习与教学管理网络平台》(2/5)

19. 2021年北京交通大学教学成果一等奖“强科学实践,重信息技术”虚实相济的一流大学物理课程探索与实践》(4/10)

18. 2021年北京交通大学教学成果一等奖《线上线下结合、教学科普相济的演示实验教学与可持续发展模式》(4/10)

17. 2020年北京市高等学校青年教学名师奖

16. 2020年毕业生最敬爱的老师

15. 2020年理学院贡献奖

14. 2019年理学院教师教学贡献奖一等奖

13. 2019年北京市级虚拟仿真实验项目《热力学与分子动理论》(1/5)

12. 2018年北京市教学成果二等奖《强化科学素质和能力,构建大物理系列教学平台》(1/10)

11. 2018年北京交通大学三育人先进个人

10. 2017年北京交通大学优秀主讲教师

9. 2017年作为负责人的大学物理教学团队获得三育人先进集体

8. 2016年北京交通大学教学成果二等奖《基于大学物理课程的科学素质教育(1/2)

7. 2016年北京交通大学教学成果一等奖《基于网络教学平台的大学物理混合式教学改革(5/5)

6. 2016年物理系青年教师教学基本功比赛一等奖

5. 2015年理学院教师教学贡献奖二等奖

4. 2014年北京交通大学青年教师教学基本功比赛一等奖理学院青年教师教学基本功比赛一等奖,物理系青年教师教学基本功比赛一等奖

3. 2014年理学院教师教学贡献奖一等奖

2. 2013年北京交通大学优秀实验指导教师

1. 2012年理学院青年教师教学基本功比赛一等奖,物理系青年教师教学基本功比赛一等奖

社会兼职

中国物理学会物理教学委员会 委员

全国物理演示实验教学研究会 理事

北京市物理学会 常务理事

北京城市规划学会 数字城市规划学术委员会 专家