本科生课程：《自然界中的相变》双语课、《生物力学工程》双语课、《生物机械工程》双语课

研究生课程：《生物工程》双语课

教育经历：

1996.09-2000.07　北京理工大学应用力学系，学士

2000.09-2003.01　北京理工大学应用力学系，硕士

2003.01-2006.12　香港科技大学机械工程系，博士

工作经历:

2007.01-2007.12　香港大学医学院　博士后

2008.01-2012.07　买球赛官方官网　　讲师

2012.07-2017.07　买球赛官方官网　　副教授

2017.07-现在　　 买球赛官方官网　　教授

2018.07-现在　　 买球赛官方官网　　博士生导师

2013.02-2013.08　美国西北大学　　访问学者

2013.09-2014.02　美国哈佛大学　　访问学者

成果与荣誉：

2019年荣获买球赛官方官网第六届“研师亦友--我最喜爱的导师”荣誉称号。

先后主持国家自然科学基金委资助的青年项目、青年面上连续项目，面上项目，重点国际合作与交流项目子项目5项，以及北京市、高校和其他项目。

代表性论著:

1.Xianyong Li, Rui Kong, Jiankun Wang, Jin Wu, Ketai He, Xiaoling Wang. The formation mechanism of Bacillus subtilis biofilm surface morphology under competitive environment. March 2023 Canadian Journal of Microbiology. DOI: 10.1139/cjm-2023-0014

2.Xianyong Li, Rui Kong, Jiankun Wang, Jin Wu, Xiaoling Wang. Matrix Producing Cells Induce the Morphological Difference in the Bacillus subtilis Biofilm. March 2023 Indian Journal of Microbiology. DOI: 10.1007/s12088-023-01073-w

3.Xiaoling Wang, Raphael Blumenfeld, Xiqiao Feng, David A. Weitz. ‘Phase transitions’ in bacteria – From structural transitions in free living bacteria to phenotypic transitions in bacteria within biofilms. Physics of Life Reviews. 2022, 43, 98-138. https://doi.org/10.1016/j.plrev.2022.09.004

4.Fulin Dong, Song Liu, Duohuai Zhang, Jinchang Zhang, Xiaoling Wang. Matrix-producing cells formed ‘Van Gogh bundles’ facilitate Bacillus subtilis biofilm self-healing. Environmental Microbiology Reports. 17 May 2022. DOI: 10.1111/1758-2229.13099

5.Jiankun Wang, Xianyong Li, Rui Kong, Jin Wu, Xiaoling Wang. Fractal morphology facilitates Bacillus subtilis biofilm growth. Environmental Science and Pollution Research. 15 March 2022. DOI: 10.1007/s11356-022-19817-4

6.JinChang Zhang, Song Liu, Fulin Dong, Duohuai Zhang, Xiaoling Wang. Biofilm streamer growth dynamics in various microfluidic channels. Canadian Journal of Microbiology. 22 January 2022. DOI: 10.1139/cjm-2021-0346

7.Song Liu, Fulin Dong, Duohuai Zhang, Jinchang Zhang, Xiaoling Wang. Effect of microfluidic channel geometry on Bacillus subtilis biofilm formation. Biomedical Microdevices. 18 January 2022. 24 (1), 1-11. DOI: 10.1007/s10544-022-00612-4

8.Fulin Dong, Song Liu, Duohuai Zhang, Jinchang Zhang, Xiaoling Wang, Hui Zhao. Osmotic Pressure Induced by Extracellular Matrix Drives Bacillus Subtilis Biofilms’ Self-healing. Computational Biology and Chemistry. 15 January 2022. 97:107632. DOI: 10.1016/j.compbiolchem.2022.107632

9.Xiaoling Wang, Fulin Dong, Jiali Liu, Yifan Tan, Shuaishuai Hu, Hui Zhao. The self‑healing of Bacillus subtilis bioflms. Archives of Microbiology. 31 August 2021. https://doi.org/10.1007/s00203-021-02542

10.Shuaishuai Hu, Xiaoling Wang, Yifan Tan, Jiali Liu, Hui Zhao. ‘Chain and running’ induced by mechanical interactions among cells of different phenotypes in the Bacillus subtilis biofilm. European Biophysics Journal. 2021, 50: 1013–1023. https://doi.org/10.1007/s00249-021-01562-0

11.Xiaoling Wang, Duohuai Zhang, Fulin Dong, Song Liu, Jinchang Zhang, Hui Zhao. Cell differentiation and motion determine the Bacillus subtilis biofilm morphological evolution under the competitive growth. Journal of Basic Microbiology 2021, 61(5), 396-405.

12.Xiaoling Wang, Yifan Tan, JiaLi Liu, Shuaishuai Hu, Hui Zhao. The Evolving Wrinkle Pattern of The Bacillus Subtilis Biofilm Providing More Living Space for Cells. Journal of Mechanics in Medicine and Biology. 2020, 20 (7), 2050048.

13.Xiaoling Wang, Yuhao Kong, Hui Zhao and Xiaoqiang Yan. Dependence of the Bacillus subtilis biofilm expansion rate on phenotypes and the morphology under different growing conditions. Development Growth and Regeneration. September 2019, 61, (7-8), 431-443. DOI: 10.1111/dgd.12627

14.Hui Zhao, Xuan Li, Wencheng Wang, Xiaoling Wang, Shaodong Wang, Na Lei, Xiangfeng Gu. Polycube Shape Space. Pacific Graphics 2019, 2019, 38 (7), 1-12.

15.Xiaoling Wang, Zhaocan Wang, Xing Shen, Yuhao Kong, Hui Zhao, Xiaoqiang Yan. Studying the internal stress heterogeneity of the growing biofilm by the micropillar deformation of the growing substrate. Journal of Mechanics in Medicine and Biology. 2019, 19(06), 1950070. DOI: 10.1142/S0219519419500702

16.Xiaoling Wang, Xing Shen, Zhaocan Wang, Yuhao Kong. Viscoelasticity variation in a biofilm-mediated Bacillus subtilis suspension induced by adding polyethylene glycol. European Biophysics Journal, 2019, 48(7), 599-608. DOI 10.1007/s00249-019-01385-0

17.Hui Zhao, Kehua Su, Chenchen Li, Boyu Zhang, Lei Yang, Na Lei, Xiaoling Wang, Steven J. Gortler, Xianfeng Gu. Mesh Parameterization Driven by Unit Normal Flow. COMPUTER GRAPHICS Forum 2019. https://doi.org/10.1111/cgf.13660

18.Hui Zhao, Xuan Li, Huabin Ge, Na Lei, Min Zhang, Xiaoling Wang, Xianfeng Gu. Conformal mesh parameterization using discrete Calabi flow. Computer Aided Geometric Design 2018, 63, 96-108. DOI: 10.1016/j.cagd.2018.03.001

19.Xiaoling Wang, Kai Zhao and Hui Zhao. Finite Element Simulation of Biofilm Viscoelastic Behavior under Various Loadings. Journal of Mechanics in Medicine and Biology. 2018, 18(5), 1850056. DOI: 10.1142/S0219519418500562

20.Siddarth Srinivasan, Ioana D. Vladescu, Stephan A. Koehler, Xiaoling Wang, Madhav Mani, and Shmuel M. Rubinstein. Matrix Production and Sporulation in Bacillus subtilis Biofilms Localize to Propagating Wave Fronts. Biophysical Journal 114, 1–9, March 27, 2018. https://doi.org/10.1016/j.bpj.2018.02.002

21.Cheng Zhang, Bo Li, Jing-Ying Tang, Xiaoling Wang, Zhao Qin and Xi-Qiao Feng. Experimental and theoretical studies on the morphogenesis of bacterial biofilms. Soft Matter. September 2017, 13, 7389-7397. DOI:10.1039/C7SM01593C

22.Xiaoling Wang, Shuo Meng and Jingshi Han. A Continuum Theoretical Model and Finite Elements Simulation of Bacterial Flagellar Filament Phase Transition. Journal of Biomechanics. October 2017, 63 (3), 21-31. DOI: http://dx.doi.org/10.1016/j.jbiomech.2017.09.012

23.Xiaoling Wang, Shuo Meng and Jingshi Han. Morphologies and phenotypes in Bacillus subtilis biofilms. Journal of Microbiology. August 2017, 55 (8), 619-627. DOI 10.1007/s12275-017-7041-z

24.Xianlong Zhang, Xiaoling Wang, Qingping Sun. Modeling of Biofilm Growth on Ager Substrate Using the Extended Finite Element Method. Procedia IUTAM. 2017 (23), 33-41. doi: 10.1016/j.piutam.2017.06.003

25.Xianlong Zhang, Xiaoling Wang, Kai Nie, Mingpeng Li, Qingping Sun. Simulation of Bacillus subtilis biofilm growth on agar plate by diffusion–reaction-based continuum model. Physical Biology. July 2016, 13 (4): 046002. DOI: 10.1088/1478-3975/13/4/046002

26.Jun-ichi Matsushita, Tatsuki Satsukawa, Naoya Iwamoto, Xiaoling Wang, Jianfeng Yang, Tomoyo Goto, Tohru Sekino, Xiaoyong Wu, Shu Yin, and Tsugio Sato. Oxidation of Pentatitanium Trisilicide (Ti5Si3) Powder at High Temperature. Materials Science Forum. 2016, 868, 38-42. DOI: 10.4028/www.scientific.net/MSF.868.38

27.Xiaoling Wang, Mudong Hao, Xin Du, Guoqing Wang, Junichi Matsushita. The mechanical analysis of the biofilm streamer nucleation and geometry characterization in microfluidic channels. Computational and Mathematical Methods in Medicine. 2016: 1-10. http://dx.doi.org/10.1155/2016/7819403.

28.Xiaoling Wang, Stephan A. Koehler, James N. Wilking，Naveen N. Sinha, Matthew T. Cabeen, Siddarth Srinivasan, Agnese Seminara, Shmuel Rubinstein, Qingping Sun, Michael P. Brenner, David A. Weitz. Probing Phenotypic growth in expanding Bacillus subtilis biofilms, Applied Microbiology and Biotechnology, 2016, 100(10), 4607-4615.  DOI: 10.1007/s00253-016-7461-4.

29.Xiaoling Wang, Jingshi Han, Kui Li, Guoqing Wang and Mudong Hao, Multi-Layer composite mechanical modeling for the inhomogeneous biofilm mechanical behavior. Computational Biology and Chemistry. 2016, 14(4), 1650014-(1-14). DOI: http://dx.doi.org/10.1142/S0219720016500141

30.Jun-ichi Matsushita, Tomoyuki Tsuchiyama, Kazuya Hamaguchi, Naoya Iwamoto, Xiaoling Wang, Jianfeng Yang, Tohru Sekino, Xiaoyong Wu, Shu Yin, and Tsugio Sato. Anatase Type Titanium Dioxide Prepared by Oxidation of Titanium Carbide. Materials Science Forum, 2016, Vol. 860, 92-96. DOI: 10.4028/www.scientific.net/MSF.860.92

31.Xiaoling Wang, Mudong Hao and Guoqing Wang, Numerical simulation of wrinkle morphology formation and the evolution of different Bacillus subtilis biofilms. Water Science and Technology. 2016, 73(3), 527-534. DOI: 10.2166/wst.2015.486

32.Xiaoling Wang, Yingrui Hou, Guoqing Wang, Mudong Hao and Hao Li. Parametric Optimization of Metal Conductors in Flexible Electronics Design. Circuit World. 2016, Vol.42 (2), 89-94. DOI:10.1108/CW-08-2015-0043

33.Liang Dong, Runhua Zhou, Xiaoling Wang, Gengkai Hu, Qingping Sun. On interfacial energy of macroscopic domains in polycrystalline NiTi shape memory alloys. International Journal of Solids and Structures. 2016, 80, 445-455.

34.Xiaoling Wang, Guoqing Wang and Mudong Hao. Modeling of the Bacillus subtilis Bacterial Biofilm Growing on an Agar Substrate, Computational and Mathematical Methods in Medicine. 2015, 9, 1-10. DOI:10.1155/2015/581829

35.Xiaoling Wang, Hao Li and Guoqing Wang. Effect of the geometric parameters of elastomer substrates on the flexibility of stretchable electronics, Chinese Journal of Engineering, 2015, 37 (s1), 24-28

36.Xiaoling Wang, and Qingping. Sun. Modeling of rate-dependent phase transition in bacterial flagellar filament. Materials Research Bulletin, Materials Research Bulletin, 2013, 43, 5019-5025. DOI: 10.1016/j.materresbull.2013.05.009.

37.Xiaoling Wang, QingPing Sun. Mechanical modeling of the bistable bacterial flagellar filament. Acta Mech Solida Sinica, 2011. 24(S), 1-16.

38.Xiaoling Wang, Yongjun He, QingPing Sun. Simulation of Bacterial flagellar phase transition by non-convex and non-local continuum modeling. Theoretical & Applied Mechanics Letters. 2011, 1 (4): 044001-6.

39.Xiaoling Wang, QingPing Sun. Mechanical Analysis of Phase Transition Experiments of the Bacterial Flagellar Filament. Acta mechanica Sinica, 2010, 26 (5), 777-785.

40.Xiaoling Wang, QingPing Sun. The review of phase transition in biological systems. Advances in Mechanics, 2010 ,40 (1): 64-80 (in Chinese).

41.Xiaoling Wang, GengKai Hu. Stress transfer for a SMA fiber pulled out from an elastic matrix and related bridging effect. Composites part A - Applied Science and Manufacturing, 2005, 36 (8): 1142-1151.

42.Xiaoling Wang, Hui Zhao, Virtual Medical Model Modification with Laplacian System, International Conference on Biomedical Engineering & Informatics, 2010, 3(1), 1296-1299.

43.Xiaoling Wang, Qiang Zhang, The Mechanical Property Analysis of Circular Saw Blades under Different Rotational Speeds, Advanced Materials Research, 2010, 145, 365-370.

44.Xiaoling Wang, Yong Zhang, The Analysis on Different Circular Saw Structures for Reducing Saw Noise, Advanced Materials Research. 2010, 145, 551-556.

45.Xiaoling Wang, Hui Zhao, Surface Based Virtual Mechanical Equipment Modification, Advanced Materials Research, 2010, 149, 693-697.

46.Xiaoling Wang, Hui Zhao, Virtual Mechanical Equipment Model Smoothing, Advanced Materials Research, 2010, 156, 355-359.

47.Xiaoling Wang, Zhongjun Yin and Yanlin Li, The stress analysis of different circular saw structures during cutting, Advanced Materials Research. 2011, 228, 471-476.

48.Xiaoling Wang, Zhongjun Yin and Chao Zhang, The analysis of dynamic characteristics in reduction of the circular saw idling noise, Advanced Materials Research, 2011, 229, 477-483.

49.Xiaoling Wang, Zhongjun Yin and Chao Zhang, The mechanical analysis of the composite reinforced circular saw blade, Advanced Materials Research, 2011, 228: 484-489.

专利：

1.王晓玲*; 戴维A·韦茨; 一种实时观测枯草芽孢杆菌生物膜生长过程中不同基因表现型细胞和分布的方法, 2018-2-24, 中国, 201510388619.9.

2.王晓玲*; 戴维A·韦茨; 一种采用液滴微流控技术提高微生物燃料电池的输出功率的实验方法, 2017-05-27, 中国, 201510388861.6.