姓名: 施立群
职称:教授,博导
办公室:现代物理研究所1-204
联系电话:65642292
电子邮件:lqshi@fudan.edu.cn
一、学历
1994.2 – 1997.3 中国科学院等离子体物理研究所 博士
1984.9 – 1987.9 东北大学,硕士
1980.7 – 1984.7 东北大学,学士
二、工作经历
1987年7月 - 1993年12月 合肥工业大学 讲师
1997年5月 - 1999年 5月 复旦大学现代物理研究所 博士后
1999年6月 - 2006年 3月 复旦大学现代物理研究所 副教授
2006年4月 - 现在 复旦大学现代物理研究所 教授
2007年 中国核物理学会核靶专业委员会 委员
2010年 中国核学会核工业与应用分会 常务理事
2014年 中国核学会核测量与分析分会 常务理事
2015年 中国核物理学会反应堆物理与核材料专业委员会 委员
2017年 国际离子束分析会议(IBA)咨询委员会 委员
2020年 中国核学会电离辐射计量分会 常务理事
三、教学工作
主讲课程
本科生课程 真空技术(36学时)
本科生课程 薄膜物理与技术(36学时)
2000年任硕士生导师,指导硕士生16名,已毕业15名,在读1名
2005年任博士生导师,指导博士生24名,已毕业13名,在读9名。
三、研究领域(300字,最后可概括性写“以第一作者或通讯作者发表论文N篇等内容”)
1.离子束应用物理与技术,主要研究离子束分析和离子束辐照的技术与应用,特别是在核材料领域的应用。
2.新型反应堆结构材料和屏蔽材料
研发新型反应堆结构材料(如MAX 相涂层和块体材料),研究材料在极端条件下(高温、强辐照、应力和腐蚀)辐照损伤物理、材料的力学、热学和腐蚀性能等;
研发新型抗辐照损伤的,具有高力学、热学、腐蚀等性能的屏蔽/结构一体化材料。
3.聚变等离子体与壁材料作用及效应
研究边界等离子体与壁作用产生的材料刻蚀和燃料滞留;发展新型第一壁材料。
已以第一作者或通讯作者发表论文110余篇.
四、承担科研项目
1.国家自然科学基金, 一种新型聚变堆中子屏蔽结构材料及其抗辐照特性的研究, 12075062,2021/1-2014/12, 63万元, 主持.
2.国家重点研发计划,托卡马克装置中长脉冲高功率运行模式下钨偏滤器基础物理研究,2017YFA0402500,2017/7-2022/7,课题负责。
3.国家自然科学基金NSAF联合基金, U1630107,钼基氢化物膜中钼扩散特性的离子束分析研究, 2017/1-2019/12, 68万元, 已结题,主持。
4.国家自然科学基金面上项目,11375046, Cr2AlC 211 型MAX相薄膜的合成及抗辐照损伤特性, 2014/1-2017/12, 92万元, 已结题,主持。
5.国家自然科学基金重大研究计划培育项目,91126019, 新型反应堆侯选结构材料及其抗辐照特性 2012/1-2014/12, 85万元,已结题,主持。
6.国家自然科学基金面上项目,10975035, Ti3SiC2 MAX 相薄膜的合成及其氦损伤特性研究, 2010/1-2012/12,42 万元,已结题,主持。
7.国家自然科学基金面上项目,10675034, 金属氚化物中氢对氦行为影响的实验模拟研究, 2007/1-2009.12/ 32 万元,已结题,主持
五、主要学术成果
1. 近期代表性论文:
[1]Hongliang Zhang, Ranran Su,Izabela Szlufarska*, Liqun Shi*, Haiming Wen*. Helium effects and bubbles formation in irradiated Ti3SiC2[J]. Journal of the European Ceramic Society, 2020.
[2]Hongliang Zhang, Jun Young Kim, Ranran Su, Peter Richardson, Jianqi Xi, Erich Kisi, John O’Conor, Liqun Shi*, Izabela Szlufarska*. Defect behavior and radiation tolerance of MAB phases (MoAlB and Fe2AlB2) with comparison to MAX phases[J]. Acta Materialia, 2020,196: 505-515.
[3]Jianping Zhang, Guang Ma, Jingyi Cheng, Shaoli Song, Zhang Yingjian and L.Q.Shi*. Diagnostic classification of solitary pulmonary nodules using support vector machine model based on 2-[18F]fluoro-2-deoxy-D-glucose PET/computed tomography texture features[J]. Nuclear Medicine Communications, 2020,41(6): 560-566.
[4]Jianping Zhang, Jiangang Zhang, Xiaoping Xu, Linjun Lu, Silong Hu, Chang Liu, Jingyi Cheng, Shaoli Song, Yingjian Zhang & L.Q.Shi*. Evaluation of Radiation dosimetry of 99mTc-HYNIC-PSMA and imaging in prostate cancer[J]. Scientific Reports, 2020,10(1). https://doi.org/10.1038/s41598-020-61129-5
[5]Yiming Duan, Weidu Wang, Wei ding, Jinhua Liu, Shuming Peng, Liqun Shi*. IBA investigation on the effect of Ti-Mo interdiffusion on the D concentration in TiDx/Mo films[J]. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms, 2020,470: 61-65.
[6]Liangcheng Cui, Bin Zhang*, Liqun Shi*, Hanjun Tu. Surface modification and deuterium retention of tungsten filmsunder low energy deuterium ion irradiation[J]. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms, 2020,481: 12-18.
[7]Chunjie Wang, Hanjun Tu, Ranran Su, Jie Gao, B.V.King, D.J.O’Connor, LiQun Shi*. Annealing effects on the structure and hardness of helium‐irradiated Cr2AlC thin films[J]. Journal of the American Ceramic Society, 2020.
[8]Wanli Hao, Fangzi Li, Yongbo Ma, Weiguang and Liqun Shi*. Removal Mechanism of Oxide Layer on the Surface of Sn-0.4Ti Alloy for Quartz Glass Sealing[J]. Materials, 2020,13(11): 2620.
[9]G.J.Cheng, B. Yao, W.Ding, L.Q.Shi, X.S.Zhou, X.G.Long, M.Chen, H.H.Shen, S.M. Peng. Regulating the helium bubble nucleation in the titanium tritides by environment temperature during the early aging period[J]. Journal of Nuclear Materials, 2020,529: 151950.
[10]Ranran Su, Hongliang Zhang, Liqun Shi*, Haiming Wen, Formation of nanostructures in Ti2AlC induced by high-temperature helium irradiation. Journal of the European Ceramic Society, 39.6(2019): 1993-2002
[11]Wanli Hao, Fangzhi Li, Yongbo Ma, Weiguang Zhang, Liqun Shi*, Nano-layered-structure interface between Sn-Ti alloy and quartz glass for hermetic seals. Materials Letters, 236.1(2019): 506-509
[12]Chunjie Wang Weiguang Zhang Zhibin Han Liqun Shi*,Behaviors of helium in Cr2AlC from first principles. Journal of the American Ceramic Society 101.12 (2018): 5771-5780
[13]Hongliang Zhang, Ranran Su, Liqun Shi*, D.J. O'Connor*, B.V. King, E.H. Kisi,, The damage evolution of He irradiation on Ti3SiC2 as a function of annealing temperature, Journal of the European Ceramic Society, 38.4(2018):1253-1264
[14]Hongliang Zhang, Ranran Su, Liqun Shi*, Daryl J. O’Connor, Haiming Wen, Structural changes of Ti3SiC2 induced by helium irradiation with different doses, Applied Surface Science 434 (2018) 1210–1216
[15]Zhibin Han, Chunjie Wang, Guijun Cheng, Hongliang Zhang, Liqun Shi*, Effects of Y on helium behavior in Y-doped TiH2 films prepared by magnetron sputtering, Journal of Alloys and Compounds, 2018 , DOI: 10.1016/j.jallcom.2018.02.022
[16]Hongliang Zhang, Weiyuan Zhang, Ranran Su, Hanjun Tu, Liqun Shi*,Deuterium trapping in the carbon-silicon co-deposition layers prepared by RF sputtering in D 2 atmosphere, Journal of Nuclear Materials , 2018 , 501 :217-223
[17]Zhibin Han, Chunjie Wang, Liqun Shi*, Synthesis and characterization of Helium-charged titanium hydride films deposited by direct current magnetron sputtering with mixed gas, Materials & Design. 2017;119:180-7.
[18]Yiming Duan, Hanjun Tu, Zhibin Han, Wei Zhang, Liqun Shi*, Differential cross-section of D(12C,D)12C elastic recoil reaction, Nucl. Instr. Meth. B 412 (2017) 54–57.
[19]HongLiang Zhang, Wei Ding, Ranran Su, Yang Zhang, Liqun Shi*,Depth profiles of D and T in Metal-hydride films up to large depth,Nuclear Instruments and Methods in Physics Research B 371 (2016) 174–177
[20]Ranran Su, Hongliang Zhang, D.J. O’Connor, Liqun Shi*, Xiangpeng Meng, Haibin Zhang,Deposition and characterization of Ti2AlC MAX phase and Ti3AlC thin films by magnetron sputtering,Materials Letters 179 (2016) 194–197.
[21]Zhibin Han, Guijun Cheng, Liqun Shi*,Synthesis and characterization of Y-doped TiH2 films prepared by magnetron sputtering, Int. J. Hydrog. Energy (2016 ) 2820-2828.
[22]Hongliang Zhang, Ranran Su, Demin Chen, Liqun Shi*,Thermal desorption behaviors of helium in Zr-Co films prepared by sputtering deposition method,Vacuum 130 (2016) 174-178
[23]Zhibin Han, Wanli Hao, Chunjie Wang, Liqun Shi*,Elastic recoil cross section determination of deuterium by helium-4 ions at 30 with the energy range of 2.6–7.4 MeV,Nuclear Instruments and Methods in Physics Research B 375 (2016) 13–16.
[24]G.J. Cheng, L.Q. Shi*, X.S. Zhou, J.H. Liang, W.D. Wang X.G. Long, B.F. Yang, S.M. Peng*, Thermal desorption behavior of helium in aged titanium tritide films, Journal of Nuclear Materials 466 (2015) 615-620
[25]Yang Zhang, Hongliang Zhang, Zhibin Han, Liqun Shi*, Measurements of the elastic recoil cross-section for 1H(12C, 1H)12C, Nuclear Instruments and Methods in Physics Research B 346 (2015) 17–20
[26]Qiang Qi, Chaozhuo. Liu, Bruce V. King*, Daryl J. O’Connor, Erich H. Kisi, Kung Wang, and Liqun Q. Shi, Near Surface Changes Due to 700 keV Si+ Irradiation of Titanium Silicon Carbide, J. Am. Ceram. Soc., 98 [12] 4050–4057 (2015)
[27]Q. Qi, W Z Zhang, L. Q. Shi, D.J. O‘Connor, B.V. King, E.H. Kisi, Damage accumulation and recovery in C+-irradiated Ti3SiC2,Acta Materialia,66 (2014) 317–325
