苗兵，博士，教授，博士生导师
Email：bmiao AT ucas DOT ac DOT cn
ResearchGate 主页：https://www.researchgate.net/profile/Bing_Miao2













部门/实验室：材料科学与光电技术学院
研究领域














































理论物理
研究方向：软物质/高分子物理，统计物理


我的科学网博客

我的蔻享学术个人专栏


专业科普系列：
高分子/统计物理
高分子统计物理漫谈，高分子物理和临界现象-n=0 模型，超对称高分子场论-1
界面涨落，界面涨落的曲率效应，界面问题的统计力学，界面问题的估算
熵，熵-黑洞，时间箭头-玻尔兹曼大脑
涨落耗散-线性响应，涨落耗散定理-2
中心极限定理，Fokker-Planck 方程-薛定谔方程，统计物理的变分法, 对偶,高维球面面积
卡西米尔力，表面力
漫谈熵


数学物理
解析函数，漫谈-几乎浪漫，傅里叶级数是洛朗级数，留数定理的一个应用: The Argument Principle，柯西定理，
黎曼猜想系列：
绝妙的证明,从阶乘说开去，黎曼 zeta 函数

报告视频：
聚电解质相分离理论


讲课视频：
数学物理方法：微分算符的曲线坐标表示


1. 高分子物理

(A) 理论综述
高分子统计场论方法参考: On the Structure of Statistical Field Theory of Polymers
高分子物理中的路径积分和标度理论参考: Polymer Theory: Path Integrals and Scaling
高分子物理中的几何与拓扑问题参考:Some Geometrical and Topological Problems in Polymer Physics


(B) 涨落理论
受限空间中的高斯涨落理论参考：Effects of Confinements on the Order-Disorder Transition of Diblock Copolymer Melts
单圈重整化涨落理论参考：Fluctuation Effects and the Stability of the Fddd Network Phase in Diblock Copolymer Melts


2. 卡西米尔物理

卡西米尔力参考：
Materials Perspective on Casimir and van der Waals Interactions
Collective Behavior of Colloids due to Critical Casimir Interactions


3. 生物物理
细胞内相变参考：
Polymer Physics of Intracellular Phase Transitions
Liquid-Liquid Phase Separation in Biology
Protein Phase Separation: A New Phase in Cell Biology


目前研究兴趣：
1. 聚电解质相分离
2. 卡西米尔效应
3. 表界面现象


我们在 Kavli 理论科学研究所 (Kavli-ITS) 组织的软物质-非平衡涨落 Workshop:
Soft Matter Out of Equilibrium: from driven to active systems(May 19 - 25, 2019, Beijing)



















































招生信息






欢迎数理基础扎实的本科生报考。

招生专业：
070201 - 理论物理


招生方向：
软凝聚态理论，统计物理











学习和工作经历

















2006年博士毕业于中国科学院化学研究所理论高分子物理组，导师为严大东教授（现工作于北京师范大学物理系），期间与加拿大麦克马斯特大学(McMaster University)物理系史安昌教授合作研究高分子自洽场及高斯涨落理论，将嵌段聚合物微相分离的统计场论（Leibler 理论）推广至受限几何空间。2006年5月-2008年9月先后在加拿大圣弗朗西斯泽维尔大学 (St. Francis Xavier University) 和圭尔夫大学 (University of Guelph) 物理系做博士后（Research Associate），合作教授为 Prof. Robert A. Wickham，期间研究高分子单圈图重整化场论。2008年10月-2011年2月在德国马普高分子研究所 ( Max Planck Institute for Polymer Research) 理论组做博士后 ( Full Research Assistant Position )，合作教授为 Prof. Dr. Thomas A. Vilgis，期间研究聚电解质统计力学，并于2009年7月在法国理论物理夏季学校 ( Les Houches School of Physics ) 研习生物体系中的物理和力学。2011年2月回国工作，在中国科学院大学材料学院任教至今。2012年入选中国科学院青年创新促进会。2019年2月-3月，访问德国马普智能体系研究所 ( Max Planck Institute for Intelligent Systems) Prof. Dr. Siegfried Dietrich 理论物理组，研究 Casimir 效应。2019年8月，访问兰州大学物理系。2019年9月，访问法国波尔多大学（University of Bordeaux）Prof. David Dean 理论物理组。




























奖励信息


2012年，入选中国科学院青年创新促进会。
2015年，中国科学院青促会学术年会“学科交叉与创新奖”。
2018年，冯新德高分子奖（最佳文章提名奖）。
2019年，彭桓武理论物理青年科学家论坛“最佳报告奖”。







讲授课程

讲授研究生课程：材料科学与工程中的数学方法、表面与界面、软物质理论导引等。



期刊论文

















33."Casimir force",Bing Miao,Acta Physica Sinica,69 (8), 080505 (2020).Invited.http://doi/10.7498/aps.69.**


32."On entropy",Bing Miao,Physics,49 (4), 205 (2020).Invited.http://www.wuli.ac.cn/CN/Y2020/V49/I4/205


31."Thermal Casimir interactions for higher derivative field Lagrangians: generalized Brazovskii models",David S. Dean, Bing Miao, Rudolf Podgornik,arXiv:2002.09822


30."The Effects of Grafting Density and Charge Fraction on the Properties of Ring Polyelectrolyte Brushes: A Molecular Dynamics Simulation Study",Qing-Hai Hao,Li-Xiang Liu,Gang Xia, Li-Yan Liu, and Bing Miao,Colloid Polym. Sci., 298, 21 (2020).https://doi.org/10.1007/s00396-019-04579-2


29."Path Integrals for higher derivative actions",David S. Dean, Bing Miao, Rudolf Podgornik,J. Phys. A: Math. Theor. 52 505003 (2019);arXiv: 1906.08626


28."Morphologies of a Polyelectrolyte Brush Grafted onto a Cubic Colloid in the Presence of Trivalent Ions", Hong-Ge Tan,Gang Xia,Li-Xiang Liu, and Bing Miao,Phys. Chem. Chem. Phys., 21, 20031(2019).http://doi.org/10.1039/C9CP03819A


27."An effective method for calculating the critical Casimir force between two parallel plates for the Ising universality class", Dongyan Chen and Bing Miao,Journal of University of Chinese Academy of Sciences,36(4), 487 (2019).http://journal.ucas.ac.cn/CN/10.7523/j.issn.2095-6134.2019.04.007


26."Morphological Response of a Spherical Polyelectrolyte Brush toSolvent Quality and Electrostatic Interaction Strength",Qing-Hai Hao, Gang Xia, Bing Miao, Hong-Ge Tan, Xiao-Hui Niu, and Li-Yan Liu,Macromolecules,51, 8513(2018).http://dx.doi.org/10.1021/acs.macromol.8b01466


25."How Implementation of Entropy in Driving Structural Ordering ofNanoparticles Relates to Assembly Kinetics: Insight into Reaction-
Induced Interfacial Assembly of Janus Nanoparticles",Ye Yang, Pengyu Chen, Yufei Cao, Zihan Huang, Guolong Zhu, Ziyang Xu, Xiaobin Dai,
Shi Chen, Bing Miao, and Li-Tang Yan,Langmuir,34, 9477 (2018).http://dx.doi.org/10.1021/acs.langmuir.8b01378



24."Solvent-dependence of the characteristic scaling exponent for single polymer chain with finite length", Shuangshuang Zhang, Bing Miao, and Tongchuan Suo,Journal of University of Chinese Academy of Sciences,35(5), 602(2018).http://journal.ucas.ac.cn/CN/10.7523/j.issn.2095-6134.2018.05.005


23."Regulating depletion interaction between micelle and selective substrate", Jingyu Zhou, Xinghua Zhang, and Bing Miao,Journal of University of Chinese Academy of Sciences,35(3), 314(2018).http://journal.ucas.ac.cn/CN/10.7523/j.issn.2095-6134.2018.03.005


22. "Light-responsive expansion-contraction of spherical nanoparticle grafted with azopolymers", Jie Fu, Xinghua Zhang, Bing Miao, and Dadong Yan,J. Chem. Phys.,146,164901(2017).http://dx.doi.org/10.1063/1.**
21. "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,13,** (2017).http://dx.doi.org/10.1002/smll.Front Cover.http://onlinelibrary.wiley.com/doi/10.1002/smll.v13.13/issuetoc
20. "Confinement Effects on Phase Separation of a Polyelectrolyte Solution", Jie Fu, Bing Miao, and Dadong Yan,Polymer,110, 49 (2017).Feng Xinde Polymer Prize(The Best Paper Nomination).http://dx.doi.org/10.1016/j.polymer.2016.12.061
19. "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,10(12), 11541 (2016).http://dx.doi.org/10.1021/acsnano.6b07563


18. "Microphase separation of short wormlike diblockcopolymers with a finite interaction range", Ying Jiang, Xinghua Zhang, Bing Miao, Dadong Yan, and Jeff Z. Y. Chen,Soft Matter,12, 2481 (2016).http://dx.doi.org/10.1039/c5sm02865e

17. "Scaling of Polymer Dynamics at an Oil–Water Interface in Regimes Dominated by Viscous Drag and Desorption-Mediated Flights", Dapeng Wang, Renfeng Hu, Joshua N. Mabry, Bing Miao, David T. Wu, Kaloian Koynov, and Daniel K. Schwartz,J. Am. Chem. Soc.,137(38), 12312 (2015).http://dx.doi.org/10.1021/jacs.5b07108

16. "Curvature elasticity of a grafted polyelectrolyte brush", Zhen Lei, Bing Miao, Shuang Yang, Er-Qiang Chen,Phys. Rev. E,91, 062602 (2015).http://dx.doi.org/10.1103/PhysRevE.91.062602

15. “Structure factor of a Gaussian chain confined between two parallel plates”,YiLiao andBing Miao,J. Chem. Phys.,142, 164903 (2015).http://dx.doi.org/10.1063/1.**

14. “The study of the structure factor of a wormlike chain in an orientational external field”, Ying Jiang, Xinghua Zhang, Bing Miao, Dadong Yan,J. Chem. Phys.,142,154901 (2015).http://dx.doi.org/10.1063/1.**

13. "Phase behaviors of sphere-forming triblock copolymers confined in nanopores: a dynamic density functional theory study", Qing-Hai Hao, Bing Miao, Qing-Gong Song, Xiao-Hui Niu, Tie-Ju Liu,Polymer,55, 4281 (2014).http://dx.doi.org/10.1016/j.polymer.2014.06.062

12. "The 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, Jeff Z. Y. Chen,Soft Matter,10(29), 5405 (2014).http://dx.doi.org/10.1039/c4sm00374h

11. “Spatial distribution of crystal orientation in neck propagation: An in-situ microscopic infrared imaging study on polyethylene”, Hailong Li, Weiming Zhou, Youxin Ji, Zhihua Hong, Bing Miao, Xiangyang Li, Jing Zhang, Zeming Qi, Xiao Wang, Liangbin Li, and Zhong-Ming Li,Polymer,54, 972 (2013).http://dx.doi.org/10.1016/j.polymer.2012.12.012

10. "On the structure of statistical field theory of polymers", Bing Miao,Int. J. Mod. Phys. B,27, **(2013).http://dx.doi.org/10.1142/S02**092

9. "Configurational fluctuation effects on counterion condensation for a polyelectrolyte chain", Bing Miao and Thomas A. Vilgis,Macromol. Theory Simul.,21, 582 (2012).http://dx.doi.org/10.1002/mats.

8. “Effects of embedded carbon nanotube on properties of biomembrane”, Xiaoyi Li, Yanchao Shi, Bing Miao, and Yuliang Zhao,J. Phys. Chem. B,116, 5391 (2012).http://dx.doi.org/10.1021/jp301864z

7. “Self-consistent field theory and its applications in polymer systems”, Dadong Yan, Tongchuan Suo, Xinghua Zhang, Xingkun Man, and Bing Miao,Front. Chem. China,6, 310 (2011).http://dx.doi.org/10.1007/s11458-011-0251-8

6. “Effect of finite-extensibility on the equilibrium chain size”, Bing Miao, Thomas A. Vilgis, Stefanie Poggendorf, and Gabriele Sadowski,Macromol. Theory Simul.,19, 414 (2010).http://dx.doi.org/10.1002/mats.

5. “Fluctuation effects and the stability of the Fddd network phase in diblock copolymer melts”, Bing Miao and Robert A. Wickham,J. Chem. Phys.,128, 054902 (2008).http://dx.doi.org/10.1063/1.**;Selected atVirtual Journal of Nanoscale Science & Technology,Volume 17, Issue 7 (2008).

4. “The nature of phase transitions of symmetric diblock copolymer melts under confinement”, Bing Miao, Dadong Yan, Robert A. Wickham, and An-Chang Shi,Polymer,48, 4278 (2007).http://dx.doi.org/10.1016/j.polymer.2007.05.045

3. “Effects of confinement on the order-disorder transition in diblock copolymer melts”, Bing Miao, Dadong Yan, Charles C. Han, and An-Chang Shi,J. Chem. Phys.,124, 144902 (2006).http://dx.doi.org/10.1063/1.**;Selected atVirtual Journal of Nanoscale Science & Technology,Volume 13, Issue 16 (2006).

2. “Linear and nonlinear phase decomposition in polymers”, Haiqing Hu, J. Y. Li, Bing Miao, and Charles C. Han,Acta Polymerica Sinica,2, 193 (2006).http://dx.doi.org/10.3724/SP.J.1105.2006.00193

1. “Conformation-assisted fluctuation of density and kinetics of nucleation in polymer melts”, Hongge Tan, Bing Miao, and Dadong Yan,J. Chem. Phys.,119, 2886 (2003).http://dx.doi.org/10.1063/1.**






































学术交流







2019. 10, 北京师范大学系统科学学院。
2019. 09, 法国波尔多大学 LOMA 理论物理组。
2019. 08, 兰州大学物理系。
2019. 03, 德国马普智能体系研究所理论物理组访问科学家。
2019. 01, 中科院理论物理所彭桓武理论物理青年科学家论坛。
2019. 01, 大理大学统计物理研讨会。
2018. 12, 东华大学先进低维材料中心。
2018. 11, 电子科大基础与前沿研究院。
2018. 08, 上海交通大学自然科学研究院。
2018. 04, 北京航空航天大学软物质研究中心。
2018. 04, 苏州大学软凝聚态物理中心。
2017. 11, 清华大学化工系。
2015. 07, 德国马普高分子研究所。
2012. 12, 以色列特拉维夫大学物理系。
2012. 08, 清华大学周培源应用数学中心。
2011. 06, 中国科技大学高分子科学系。
2009. 07, Les Houches Physics Summer School, France.









邀请报告










28. Theory of Phase Separations in Polyelectrolyte Systems，2019. 12，太平洋高分子学术会议，新加坡。
27. Casimir Forces and Path Integrals for Higher Derivative Actions，2019. 10，北师大系统科学学院。
26. Fluctuation-related physics of polymers，2019. 10，全国高分子学术论文报告会，西安。
25. Thermal Casimir Forces within Gaussian Field Theory，2019. 08，兰州大学理论物理交流平台。
24. Recent Progress on Casimir Physics，2019. 08，北航软物质物理研究中心。
23.Casimir Forces in Gaussian Fluctuating Media，2019. 07，第五届全国统计物理与复杂系统学术会议，合肥，中国科技大学。
22.Phase Separations of Polyelectrolytes，2019. 07，第十五届中韩双边高分子材料研讨会，恩施。
21.Casimir Forces in Ising and Brazovskii Fluctuation Media within a Gaussian Model，2019. 06，弗里德曼引力和宇宙学及卡西米尔效应研讨会，圣彼得堡，俄罗斯。
20.Casimir Forces in Gaussian Fluctuating Media，2019. 06，国家天元数学东北中心，长春，吉林大学。
19.Fluctuations in Polymer Physics，2019. 03，德国马普智能体系研究所理论物理组，斯图加特。
18.Phase Separations in Polyelectrolyte Systems，2018. 11，国际软物质科学与工程研讨会，成都，四川大学。
17. Phase Separations in Polyelectrolyte Systems，2018. 10，国际高分子科学研讨会，北京大学软物质研究中心。
16. 聚电解质溶液相分离理论，2018. 09，中国物理学会秋季会议，大连理工大学。
15. 高分子统计物理，2018. 08，江苏科技大学材料学院。
14. Field Theory of Polymers, 2018. 06, 广州大学智能制造工程研究院。
13. 关联函数，2018. 04，北航软物质物理研究中心。
12.Theoretical Study on Phase Transitions in Polymers，2018. 04，苏州大学软凝聚态物理中心。
11. 高分子体系的有序和涨落， 2017. 11，清华大学化工系。


10. EMN Meeting on Polymer 2016, 2016/01/12-2016/01/15, Hong Kong.


9. Phase separations in polyelectroyte solutions: effect of chain flexibility, at the Soft Matter Workshop, Kavli Institute for Theoretical Physics China, August, 2015.

8. Phase separations in polyelectroyte solutions: effect of chain rigidity, at the Theory Group, Max Planck Institute for Polymer Research, July, 2015.

7. Pole distribution and structuring in a polymer system, at the Beijing University of Chemical Technology, July, 2014.

6. The polesof scattering functionand the structuringfor a polymer system, at the Seminar of Theory and Simulation in Macromolecular Systems, Changchun Institute of Applied Chemistry, CAS, June, 2014.

5. Microphase separation under confinement: A field-theoretic study, at the Fritz Haber Center, Hebrew University of Jerusalem, December, 2012.

4. Some field theoretic methods in polymer physics, at the Zhou Pei-Yuan Center for Applied Mathematics, Tsinghua University, August, 2012.

3. Some progresses on the study of phase behavior in polyelectrolyte solutions, at the Seminar of Theory and Simulation in Macromolecular Systems, Nanjing University, May, 2012.

2. Theoretical methods in polymer physics, Series Lectures at the Soft Matter Group, University of Science and Technology of China, June, 2011.

1. Theoretical study on structure phase transitions in polymer systems, at the Seminar of Advanced Polymer Materials, Qingdao University of Science and Technology, April, 2011.













会议报告6. "Phase separation of a polyelectrolyte solution under confinements", Bing Miao, the 13th Pacific Polymer Conference, Kaohsiung, Taiwan, 2013.
5. “Field-theoretic methods in polymer physics”, Bing Miao, the 17th Conference for Condensed Matter Theory and Statistical Physics, Lanzhou, 2012.
4. “Effect of finite-extensibility on the equilibrium chain size”, Bing Miao, Thomas A. Vilgis, Stefanie Poggendorf, and Gabriele Sadowski, DPG Spring Meeting, Regensburg, 2010.
3. “Morphologies of a diblock copolymer melt confined in a spherical nanopore”, Bing Miao, Janine Tulkens, Weihua Li, and Robert A. Wickham, International Symposium on Polymer Physics, Xiamen, 2008.
2. “Morphologies of a diblock copolymer melt confined in a spherical nanopore”, Bing Miao, Janine Tulkens, Weihua Li, and Robert A. Wickham, APS March Meeting, New Orleans, 2008.
1. “Fluctuation effects and stability of the Fddd network phase in diblcock copolymer melts”, Bing Miao and Robert A. Wickham, APS March Meeting, Denver, 2007.

相册















With David, at Bordeaux, France.



Bordeaux, France.



With David, at Mutianyu Great Wall, Beijing.



With Rudi, at Yanqi Campus of UCAS, Beijing.



?The 5th National Conference on Statistical Physics, 2019. 08, Hefei, China.



The 15th China-Korea Bilateral Symposium on Polymer Materials, 2019. 07, Enshi, China.



St. Petersburg, 2019. 06.


St. Petersburg, 2019. 06.



The FourthSymposium on Casimir Effect, 2019. 06, St. Petersburg.


Group Photo of Kavli-ITS workshop on non-Equilibrium fluctuations, 2019. 05, Beijing.


With Rudi and David, 2019. 05, Qingdao.


With Rudi and David, 2019. 03, Huairou.



With MPI-IS Theoretical Physics Group, 2019. 03, Stuttgart.



Peng Huanwu Young Scientists's Forum on Theoretical Physics, ITP-Cas, 2019. 01, Beijing.


Polyelectrolyte Symposium at Donghua University, 2018. 12, Shanghai.


Feng Xinde Polymer Prize (Best Paper Nomination).


With J. Zinn-Justin during his series lectures on RG, 2017. 11, ITP-Cas,Beijing.


MPI-P, Germany.


Les Houches School of Theoretical Physics, 2009. 07, France.

















科研合作

Prof. Rudolf Podgornik, UCAS,Beijing
Prof. David S. Dean, U. Bordeaux, France
Prof. Dr. Siegfried Dietrich, MPI-IS, Germany
Prof. Jing Yu, NTU, Singapore