吕沙沙

职称:副教授

职务:博士生导师

学历:博士

专业:核科学与技术

电话:

办公室:北京师范大学核科学与技术学院北楼209

个人主页:

邮箱: lvss@bnu.edu.cn

邮编:

传真:

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”,中国核学会射线束分会委员。主持国家自然科学基金面上项目、青年基金、多项全国重点实验室和省部级重点实验室基金项目、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。Nature CommunicationsJournal of Nuclear MaterialsACS Applied Materials & Interfaces等高水平期刊上发表SCI论文60余篇,其中第一作者和共同通讯作者30篇获评北京师范大学优秀班主任,优秀支部书记等荣誉称号,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。



1. 射线束辐照效应与应用

2. 辐射探测材料和极端环境材料

3. 辐照表面改性和损伤模拟

4. 核分析技术在材料领域的交叉应用

 


1. Lv Shasha, et al., Operando neutron depth profiling on monitoring the lithium spatial distribution of lithium metal. Nature Communications20189:2152. 

2. Gao JLv Shasha*, et al.,Fuel cladding chemical interactions for MOX fuel in fast reactors, Nuclear Engineering and Design, 424 (2024) 113208.

3. Du S JLv Shasha*, 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 Shasha*, 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 GLv Shasha*, et al., Surface modification of ET-10 graphite by helium irradiation and preoxidation: morphology, microstructure and chemical statesJournal of Nuclear Materials, 2023574:154173.

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-annealingRadiation 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 JLv Shasha*, 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, 2022, 1-9.

15. Shen Z Q, Gao JLv Shasha*, et al., OKMC simulation of vacancy enhanced solute segregation affected by temperature/irradiation in Fe-Cu system. Nuclear Science and Techniques2022, 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 JLv 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, 2021492: 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 Techniques202132:93.

19. Lv Shasha*, et al., Neutron Depth Profiling Study on 6Lithium and 10Boron Contents of Nuclear GraphiteJournal of Nuclear Science and Technology2021, 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 Analysis1–7(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 Physics Sinica2019, 68(12): 128102.

27. Lv Shasha, et al., Enhanced Field Emission Performance of Hierarchical ZnO/Si Nanotrees with Spatially Branched Heteroassemblies. ACS Applied Materials & Interfaces7, 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).



科研项目

1. Young Elite Scientist Sponsorship, China Association for Science and Technology, Eighth Session. Jan.2022-Dec.2024, 300,000 CNY, Ongoing, Director.

中国科协, 青年托举人才工程, 第八届, 射线束技术及应用, 2022-1至2024-12, 30万元, 在研, 主持 

2. National Natural Science Foundation of China, The Development and Irradiation Effect of Lithium Borate Optically Stimulated Light (OSL) Materials with Doping Design Regulated by Deep Trap, Jan.2021-Dec.2023, 680,000CNY, Ongoing, Director.

国家自然科学基金委员会, 面上项目, 基于深陷阱调控的硼酸锂光释光材料掺杂设计与辐照效应研究, 2024-01-01 至 2027-12-31, 68万元, 在研, 主持

3. National Natural Science Foundation of China, Surface Passivation of High-Purity Germanium Detectors Immersed in Low-Background Liquid Nitrogen, Jan.2021-Dec.2023, 300,000CNY, Ongoing, Director.

国家自然科学基金委员会, 青年科学基金项目, 12005017, 基于低本底液氮裸浸高纯锗探测器的表面钝化研究, 2021-01-01 至 2023-12-31, 30万元, 在研, 主持

4. Project from Tsinghua University, Research on High Temperature Irradiation Properties of Nickel Based Alloys, Subproject under the National Key Research and Development Program  Jan.2020-Jun.2023, 1,000,000CNY, Ongoing, Director.

清华大学,镍基合金高温辐照性能研究,国家重点研发“小型氦氙冷却移动式固体核反应堆”分课题, 2020, 2020-01 至 2023-06, 100万元, 在研, 主持

5. Project from Nuclear Power Institute of China, Ion Irradiation Modification of Zirconium Alloy  and the Related Characterization, Mar.2023-Dec.2023, 140,000CNY, Ongoing, Director.

中国核动力研究设计院,锆合金离子辐照改性及表征,2023-03 至 2023-12, 14万元, 在研, 主持

6. Central University Research Fund Project, Mechanism Analysis and Simulation on Surface Passivation of Point-Contact High-Purity Germanium Detectors, Oct.2018-Oct.2020, 100,000CNY, Completed, Investigator

中央高校自主科研基金项目,点电极高纯锗探测器表面钝化的机理分析与模拟研究,2018/10-2020/10,10万元,结题,主持

7. China Institute of Atomic Energy, Surface Coatings Preparation and their Characterization after Compatibility Test, July 2021-Dec.2022, 340,000CNY, Completed, Director.

中国原子能研究院,表面强化样品制备及相容性试样表征测试,2021-07至 2022-12,34万元,结题,主持

8. Key Laboratory of Particle Technology and Radiation Imaging, Ministry of Education, Open Project, Surface Modification of Ultra-Low-Background High-Purity Germanium Detectors, an.2021-Dec.2021, 100,000CNY, Completed, Director.

粒子技术与辐射成像教育部重点实验室开放课题,超低本底高纯锗探测器的表面改性与测试,2021-01至 2021-12,10万元,结题,主持

9. Tsinghua University, RPV (Reactor Pressure Vessel) Ion Irradiation, Jul.2022-Dec.2022,60,000CNY, Completed, Director.

清华大学,RPV离子辐照,2022-07至 2022-12,6万元,结题,主持

10. Postdoctoral Fund, Neutron Depth Profiling Applications, Jan.2019-Jun.2020, 80,000CNY, Completed, Director.

博士后基金,中子深度分析应用,2019-01至 2020-06,8万元,结题,主持



其他信息

邀请报告

1. The irradiation effects and helium bubbles evolution mechanism of nickel-based alloy, Materials for New Energy System The 4th UTokyo-Tsinghua Joint Workshop, 线上, 2022-12-14

2. Materials for New Energy System The 4th UTokyo-Tsinghua Joint Workshop2022,论坛主持

3. 点电极高纯锗探测器的表面钝化研究与性能测试, 2021年中国暗物质实验合作组CDEX年会, 清华大学, 2021-12-19

4. The Ni-based alloy irradiation damage and helium bubble evolution mechanism, Seminar on High Energy Ion Beam, 线上, 2021-8-21

5. 材料辐照效应及射线束技术应用, 第五届军民两用新材料大会-核电燃料用关键材料及国产 化论坛, 青岛, 2020-12-72020-12-9

6. High purity germanium detector for rare event detection, PIRE school and Collaboration Meeting, 德国慕尼黑, 2019-5-172019-5-25

7. 计算材料科学与技术全国学术论坛会议,分会场报告,2020