姓名：李宇浩

職稱：助理教授

Email：yuhaoli@buaa.edu.cn

辦公地點：沙河校區國實C座721

研究方向：金屬輻照損傷、材料氫氦效應、多尺度模拟

教育背景：

2009.09-2018.07，beat365英国官网网站beat365英国官网网站本碩博

2016.11-2017.11，加州州立大學北嶺分校聯合培養

工作經曆：

2018.09-2020.08，深圳大學李建剛院士工作站博士後

2020.09至今，beat365英国官网网站beat365英国官网网站助理教授

課題組主頁：compuphys@buaa.edu.cn

承擔項目：

主持：國家自然科學基金委青年項目，應變對鎢中過飽和氫聚集行為的影響機理研究，2020.1-2022.12

主持：博士後科學基金面上項目，從點缺陷動力學行為研究H/He對W輻照缺陷演化影響機理，2019.5-2020.8

代表性學術成果:

[1] Yu-Hao Li, Hong-Bo Zhou, Linyun Liang, Ning Gao, Huiqiu Deng, Fei Gao, Gang Lu, Guang-Hong Lu, Transition from ductilizing to hardening in Tungsten: the dependence on Rhenium distribution, Acta Materialia, 181 (2019) 110-123.

[2] Yu-Hao Li, Hong-Bo Zhou, Zheng Wang, Huiqiu Deng, Guang-Hong Lu, Influence of hydrostatic strain on the behaviors of rhenium and osmium in tungsten, Journal of Nuclear Materials, 516 (2019) 111.

[3] Yu-Hao Li, Fang-Fei Ma, Fang-Ya Yue, Qing-Yuan Ren, Hong-Bo Zhou, Guang-Hong Lu, Radiation induced precipitation of transmutation elements rhenium/osmium and their effects on hydrogen behavior in tungsten, Progress in Natural Science-Materials International, 29 (2019) 285.

[4] Qing-Yuan Ren,Yu-Hao Li^#, Hong-Bo Zhou, Zhong-Zhu Li, Long Cheng, Guang-Hong Lu, Characterization of the energetics and configurations of hydrogen in vacancy clusters in tungsten, Nuclear Fusion, 50 (2019) 106032. (Equal contribution)

[5] Fang-Ya Yue,Yu-Hao Li^#, Hong-Bo Zhou, Ying Zhang, Guang-Hong Lu, Insight into the enhancement effect of rhenium-rich precipitation on hydrogen retention in tungsten by investigating the behaviors of hydrogen in tungsten-rhenium sigma phase, International Journal of Hydrogen Energy, 44 (2019) 24880. (Equal contribution)

[6] Yu-Hao Li,Hong-Bo Zhou, Hui-Qiu Deng, Gang Lu, Guang-Hong Lu, Towards understanding the mechanism of rhenium and osmium precipitation in tungsten and its implication for tungsten-based alloys, Journal of Nuclear Materials, 505 (2018) 30-43.

[7] Yu-Hao Li,Hong-Bo Zhou, Shuo Jin, Ying Zhang, Hui-Qiu Deng, Guang-Hong Lu, Behaviors of transmutation elements Re and Os and their effects on energetics and clustering of vacancy and self-interstitial atoms in W, Nuclear Fusion, 57 (2017) 046006.

[8] Yu-Hao Li,Hong-Bo Zhou, Guang-Hong Lu, Towards understanding the strong trapping effects of noble gas elements on hydrogen in tungsten, International Journal of Hydrogen Energy, 42 (2017) 6902.