CV

Education

• M.S. in Materials Science and Engineering, Stanford University, CA, US, 2018/06
• M.S. in Chemical Engineering, University of California Berkeley, CA, US, 2016/05
• B.S. in Chemical Engineering, Tsinghua University, Beijing, China, 2015/07

Work experience

• Staff Algorithm Engineer, AMAP(AutoNavi, Alibaba Inc.), Beijing, China, 2021/12 - Current

• Simulation Engineer, AutoX, Beijing, China, 2020/08 - 2021/12

• Senior Software Engineer, Li Auto Inc.(LI), Beijing, China, 2020/04 - 2020/08

• Software Engineer, Momenta, Beijing, China, 2018/06 - 2020/04

Publications

[6] Xu, G., Sun, Z., Liu, H., Zhou, Y., Gong, X., & Gong, S. (2022). Identification of ground effect and intelligent control of unmanned aerial vehicles. Aerospace Science and Technology, 131, 107976.

[5] Xu, G., & Qin, J. (2018). Segmental Dynamics Revealed from All-atom Simulations of Concatenated Polyethylene Rings. APS March Meeting Abstracts (Vol. 2018, pp. L60-070).

[4] Gustafson, K. S., Xu, G., Freed, K. F., & Qin, J. (2017). Image method for electrostatic energy of polarizable dipolar spheres. The Journal of Chemical Physics, 147(6), 064908.

[3] Xu, G., Huang, Z., Chen, P., Cui, T., Zhang, X., Miao, B., & Yan, L. T. (2017). Optimal Reactivity and Improved Self‐Healing Capability of Structurally Dynamic Polymers Grafted on Janus Nanoparticles Governed by Chain Stiffness and Spatial Organization. Small, 13(13), 1603155.

[2] Huang, Z., Lu, C., Dong, B., Xu, G., Ji, C., Zhao, K., & Yan, L. T. (2016). Chain stiffness regulates entropy-templated perfect mixing at single-nanoparticle level. Nanoscale, 8(2), 1024-1032.

[1] Liu, Z., Guo, R., Xu, G., Huang, Z., & Yan, L. T. (2014). Entropy-mediated mechanical response of the interfacial nanoparticle patterning. Nano letters, 14(12), 6910-6916.

Skills

C/C++, Python, Java, Go, Matlab, R, SQL, Linux, LaTeX.