个人简介
吕沙沙,副教授,博士生导师。入选第八届中国科协“青年托举人才”、唐仲英基金会“仲英青年学者”。主持国家自然科学基金面上项目、青年基金、重点实验室联合基金项目、横向项目等15余项。担任国自然企业联合基金课题负责人等。
在 Nature Communications 、 Journal of Nuclear Materials
等高水平期刊上发表SCI论文70余篇,h因子18;授权国家发明专利10余项。曾获北京师范大学“优秀班主任”“优秀支部书记”、清华大学“优秀博士论文”等荣誉称号。担任Nuclear
Analysis、材料开发与应用等期刊编辑和青年编委。 指导多名研究生获得国家奖学金、校级奖学金等荣誉。
工作经历
1. Sept.2021-Now, Associate Professor, School of Nuclear Science and Technology,
Beijing Normal University, China
2021/09至今,北京师范大学,核科学与技术学院,副教授
2. Step.2018-Aug.2021, Assistant Professor, School of Nuclear Science and
Technology,
Beijing Normal University, China
2018/09-2021/08,北京师范大学,核科学与技术学院,讲师
3. Oct.2016-Oct.2017, Visiting PhD student, Delft Reactor Institute, Department
of Applied Physics, Technology University of Delft, Netherlands
2016/10-2017/10,荷兰代尔夫特理工大学,代尔夫特反应堆研究所应用物理系,交流访问
4. Step.2013-July 2018, Doctor of Engineering, Department of Materials Science
and Engineering,
Tsinghua University, China
2013/09-2018/07,清华大学,材料科学与工程系,博士,曾获清华大学“优秀博士论文”、清华大学“未来学者”、清华大学“国家奖学金”等荣誉称号。
近期论文
查看导师新发文章
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1. Lv Shasha , et al. , Operando neutron depth profiling on monitoring the lithium spatial distribution of lithium metal. Nature Communications , 2018 , 9:2152.
2. Gao J , Lv Shasha *, et al. , Fuel cladding chemical interactions for MOX fuel in fast reactors, Nuclear Engineering and Design , 424 (2024) 113208.
3. Du S J , Lv S hasha *, et al. , Analyzing the Surface Passivity Effect of Germanium Oxynitride: A Comprehensive Approach through First Principles Simulation and Interface State Density. Nuclear Science and Techniques , (2024) 35:45 .
4. Zhao Y, Lv S hasha * , et al. , Microstructure and defect evolution of nuclear graphite under temperature-dependent ion irradiation . Journal of Nuclear Materials , 2023 , 577: 154308.
5. Gao J , Zhao Y , Yeli G , Lv Shasha * , et al. , Surface modification of ET-10 graphite by helium irradiation and preoxidation: morphology, microstructure and chemical states . Journal of Nuclear Materials , 2023 , 574 : 154173 .
6. Zhang S J, Liu Y Y*, Lv Shasha *, et al. , Surface modification of low-background polymers by applying nitrogen ion implantation for electronic substrates of rare event detection. Radiation Physics and Chemistry 204 ( 2023 ) 110700.
7. Lv Shasha *, et al., The irradiation effects on the nanoindentation hardness and helium bubbles evolution mechanism of Ni-based alloy. Radiation Physics and Chemistry , 206 ( 2023 ) 110763 .
8. Zhang S J, Liu Y Y*, Lv Shasha *, et al. , Surface metallization of PTFE and PTFE composites by ion implantation for low-background electronic substrates in rare-event detection experiments. Nuclear Science and Techniques , 33, 90 ( 2022 ).
9. Lv Shasha * , et al. , The structure evolution in neutron-Irradiated nuclear graphite and post-annealing . Radiation Physics and Chemistry , 2022 , 197: 110156.
10. Zhang S J, Liu Y Y*, Lv Shasha* , et al. , Surface modification of polymers by ion irradiation: Reactivity principle and application. Nuclear Instruments and Methods in Physics Research B, 543 (2023) 165097
11. Du S J , Lv S hasha * , et al. , Analyzing the Surface Passivity Effect of Germanium Oxynitride: A Comprehensive Approach through First Principles Simulation and Interface State Density. Nuclear Science and Techniques.
12. Zhao Y, JinY, L, Lv Shasha * , et al. , The Wigner energy and defects evolution of graphite in neutron-irradiation and annealing. Radiation Physics and Chemistry , 2022 , 201 : 110401.
13. Wang Yazi, Lv Shasha *, et al. , Review on incorporation of alkali elements and their effects. Journal of Materials Science & Technology 96 ( 2022 ) 179 .
14. Lv Shasha * , et al. , Helium behavior and vacancy-defect evolution in nickel-base alloy by helium ion beam irradiation and annealing . Surface and Interface Analysis , 2 022 , 1- 9.
15. Shen Z Q, Gao J , Lv Shasha *, et al. , OKMC simulation of vacancy enhanced solute segregation affected by temperature/irradiation in Fe-Cu system. Nuclear Science and Techniques , 2022 , 33:149.
16. Shen Y H, Lv Shasha *, et al., Microstructure Characterization and Small Punch Test Analysis in Nickel-Based Alloy 617 by High Energy Neon Implantation. Metals , 2022 , 12, 438.
17. Gao J , Lv Shasha *, et al. , Simulation of Primary Knock-on Atom distribution in HTGR graphite under neutron and ion irradiation [J]. Nuclear Inst. and Methods in Physics Research B , 2021 , 492 : 15-22 .
18. Lv Shasha * , et al. , Evaluation of the passivation effect and the first-principles calculation on surface termination of germanium detectors. Nuclear Science and Techniques , 2021 , 32:93.
19. Lv Shasha * , et al. , Neutron Depth Profiling Study on 6Lithium and 10Boron Contents of Nuclear Graphite , Journal of Nuclear Science and Technology , 2021 , 1902874.
20. Zhu Rui, …, Lv ShaSha * . Evolution of helium bubbles in nickel-based alloy by post-implantation annealing. Chin. Phys. B , 30, 8 ( 2021 ) 086102.
21. Shuaishuai Feng, Lv Shasha * , et al. , Evolution of Ion Irradiated Point Defect Concentration by Cluster Dynamics Simulation, Chin. Phys. B , 30, 5 (2021) 056105
22. Lv Shasha * , et al. , Neutron Depth Profiling Study on 6Lithium and 10Boron Contents of Nuclear Graphite [J]. Journal of Nuclear Science and Technology , 2021 , 58(9): 1018-1024.
23. Lv Shasha *, et al. , Effect of nitrogen ion irradiation treatment to the enhancement of ZnO photocatalytic performance. Surface and Interface Analysis . 1–7( 2020 ).
24. Lv Shasha *, et al. , High-voltage LNMO thin film cathodes stabilized by LiPON solid coating to enhance cyclic stability and rate capability. Journal of Alloys and Compounds , 815, 151636 ( 2020 )
25. Lv Shasha *, et al. , Thermal desorption characteristic of helium ion irradiated nickel-base materials. Chin. Phys. B 29(4), 040704( 2020 ).
26. Li M, Zhang L, Lv Shasha * , Li Zhengcao*. Effects of ion irradiation and oxidation on point defects in IG-110 nuclear grade graphite [J]. Acta Phys ics Sin ica , 2019 , 68(12): 128102.
27. Lv Shasha , et al. , Enhanced Field Emission Performance of Hierarchical ZnO/Si Nanotrees with Spatially Branched Heteroassemblies. ACS Applied Materials & Interfaces , 7, 13564−13568, (2015).
28. Lv Shasha , et al. , Optimizing Field Emission Properties of the Hybrid Structures of Graphene Stretched on Patterned and Size-controllable SiNWs. Scientific Reports , 5:15035, (2015).
29. Lv Shasha , et al. , Well-aligned NiSi/Si heterostructured nanowire arrays as field emitters. Journal of Vacuum Science & Technology B , 33, 02B101, (2015).
30. Lv Shasha , et al. , Tunable field emission properties of well-aligned silicon nanowires with controlled aspect ratio and Proximity. RSC Advances , 4, 31729, (2014).
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