潘敏 副研究员
电气工程学院
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科研项目
一. 主持项目
(1) 国家自然科学基金委,面上项目,12375259,氧化物Y2O3掺杂对钨中氢氦行为演化的影响,2024.1-2027.12,主持,在研。
(2) 高速磁浮运载技术全国重点实验室, 重点项目,高温超导磁悬浮飞轮储能系统优化研究,2024.7-2026.6, 主持,在研。
(3) 中国科学科技部, 国家磁约束核聚变能发展专项, 2018YFE0308102, 辐照缺陷热力学与动力学行为, 2018.12 - 2023.11, 主持,在研。
(4) 中国科学技术部, 国家磁约束核聚变能发展研究专项, 2017YFE0301404, 新型导体结构设计及制造关键技术研究, 2018-08 至 2023-05, 主持, 结题。
(5) 国家自然科学基金青年基金项目,聚变材料体心立方金属辐照损伤缺陷演化动力学模拟,(11405138),2014.1-2017.12 主持,结题。
(6) 国家博士后科学基金面上资助一等项目:高温辐照下聚变材料复合率研究,(2014M560813),2014.5-2015.5,主持,结题。
(7) 陕西省博士后省级基金:第一壁钨材料离位损伤机理研究,2014.10-2015.10 主持,结题。
(8) 中央高校专项科研业务费科技创新项目:铁基超导/压电异质结的第一性原理计算研究(SWJTU12CX019)2011.1-2012.12,主持,结题
(9) 中央高校百人计划项目“新型铁基超导材料的第一性原理研究”(SWJTU09BR154) 2010.1-2011.12
(10) 西南交通大学优秀博士论文培育基金(2009),铁基超导体的第一性原理研究,2009-2011
(11) 核动力西南物理研究院研究课题(横向):聚变用金属W辐照损伤机理研究,2014.5-2015.5,主持,结题。
(12) 西部超导材料有限公司研究课题(横向):辐照损伤点缺陷复合率研究,2015.5-2016.5,主持,结题。
二. 参与主研项目
[1] 国家科技计划项目-国际科技合作项目”先进高场磁体材料Nb3Al制备的联合研发“(2013 1050)
[2] 国家科技计划项目-863计划 “高性能MRI用超导线材批量化制备技术” (2014AA032701)
[3] 国家科技重大专项 “锂与等离子体相互作用的台面试验研究及诊断技术发展” (2013GB114003-1)
[4] 国家级项目 “高性能Nb3Al超导线材结构设计、加工和热处理研究”(2011BG112001)
论文成果
一. 论文情况
第一作者及通讯作者论文:
1)Promising AlN-modified VS2 heterostructure for Li-ion battery anode with high specific capacity,Kun Zhang, Min Pan*, Yujie Wang, Xiangyang Wang, Weiwei Sun,Materials Today Communications, 40 (2024) 109779.
2) Effect of transmutation rhenium on tensile properties of tungsten by molecular dynamics simulation,Shulong Wen, Min Pan*, Phys. Scr. 99 (2024) 035413.
3)Theoretically evaluating transition metal activated two-dimensional bilayer tetragonal AlN nanosheet for high- performance HER/OER/ ORR electrocatalysts,Ku Zhang, Min Pan*, Zhixiao Liu, Jiaming Wang, Yujie Wang, Huiqiu Deng,Computational Materials Science 232 (2024) 112634.
4) Bilayer tetragonal AlN nanosheets as potential cathodes for Li–O2 batteries Jiaming Wang, Hao Wu, Min Pan* , Zhixiao Liu*, Lei Han, Zheng Huang and Huiqiu Deng, Phys. Chem. Chem. Phys., 2023,25, 15030-15039.
5) The effect of antisite defects on the mechanical and dynamic stability of Nb3Al,Lei Han, Zelin Cao, Min Pan*, Kaige Hu*, Zheng Huang, Jiaming Wang, Yong Zhao and Huiqiu Deng, 2023 J. Phys.: Condens. Matter 35 435401.
6) Investigation on the effect of carbon on clustering of defects in tungsten by first principles calculations. Shulong Wen, YiNi Lv, Min Pan*, Zheng Huang, Jiaming Wang, Lei Han, Yong Zhao, Huiqiu Deng, Materials Today Communications 35 (2023) 106129.
7) Theoretically Evaluating Two-Dimensional Tetragonal Si2 Se2 and SiSe2 Nanosheets as Cathode Catalysts for Alkali Metal−O2 Batteries, Jiaming Wang, Kun Zhang, Min Pan*, Zhixiao Liu, and Huiqiu Deng, J. Phys. Chem. C 2023, 127, 21033−21046.
8) Investigation of the W/Y2O3 heterogeneous interface properties and its effect on hydrogen behavior using first-principles calculations, ShuLong Wen; XingMing Zhang; Huiqiu Deng; Min Pan*, Nuclear Fusion,2022, 62(8): 086015-086015. SCIE. 一区
9) Theoretically evaluating two-dimensional tetragonal Si2Se2 and SiSe2 nanosheets as anode materials for alkali metal-ion batteries. Jiaming Wang; Hao Wu; Zhixiao Liu*; Min Pan*; Zheng Huang; Liu Pan; Lei Han; Kun Zhang; Yong Zhao; Huiqiu Deng, Physical Chemistry Chemical Physics, 2022, 24(42): 26241-26253. SCIE.
10) Ta concentration effect on nucleation of defects in W-Ta alloy from first-principles model Shulong Wen; Min pan*; Zheng Huang; Jiaming Wang; Lei Han; Yong Zhao, Materials Today Communications, 2022, (30): 103071. SCIE
11) First-principles study of interface stability and behaviors of He at the W/Y2O3 interface ShuLong Wen; XingMing Zhang; HuiQiu Deng; Min Pan*, Materials Today Communications, 2022, 31: 103520. SCIE.
12) 韩磊,曹泽霖,黄整,温述龙,潘敏*,王佳明,吴浩,潘柳,赵勇,A15型 Nb3Al晶格相变与热力学性质的 第一性原理计算,Low. Temp. Phys. Lett.43, 0259 (2021).
13) The Stability and Elasticity in Ta-Ti-V Medium-Entropy Alloys Using First-Principles Calculations, Hu, Wenqiang; Pan, Min*; Huang, Zheng; Yang, Hongwei; Wu, Hao; Pan, Liu; Cao, Zelin; Zhao, Yong, Frontiers in Materials, 2021, 8: 651435. SCIE.
12) Phase transformation and mechanical stability of niobium aluminide (Nb3Al) induced by high pressures, Cao, Zelin; Hu, Kaige; Pan, Min*; Huang, Zheng; Hu, Wenqiang; Wu, Hao; Pan, Liu; Han, Lei; Wang, Jiaming; Zhao, Yong; Deng, Huiqiu, JOURNAL OF ALLOYS AND COMPOUNDS, 2021, 869: 159278-159286. SCIE.
13) Effect of titanium on the precipitation behaviors of transmutation elements in tungsten-titanium alloys from first-principles calculations , Cao, Zelin; Pan, Min*; Hu, Kaige; Huang, Zheng; Lv, Yini; Wen, Shulong; Zhao, Yong; Deng, Huiqiu, Fusion Engineering and Design, 2020, 158: 111673. SCIE.
14) Effect of transmutation elements Re and Ta on the vacancy formation and dissociation behaviors in W bulk, Shulong Wen; Kaige Hu; Min Pan*; Huang Zheng; Zelin Cao; Yini Lv; YONG ZHAO; Huiqiu Deng, Computational Materials Science, 2020, 179(2): 109624. SCIE.
15) Effect of tungsten on the vacancy behaviors in Ta–W alloys from first-principles calculations , Yini Lv; Kaige Hu; Zheng Huang; Zelin Cao; Shulong Wen; YONG ZHAO; Min Pan*; Huiqiu Deng, Solid State Communications, 2020, 306(113767): 113767-113770. SCIE.
16) Shu long Wen, Kai hui He, Hui Na Cui, Min Pan*, Zheng Huang*, Yong Zhao, Migration properties of mono-vacancy in W-4d/5d transition metal alloys, Journal of Alloys and Compounds, 728 (2017) 363-367. (SCI)
17) Shu long Wen, Hong Zhang, Xin Sheng Yang, Hui Na Cui, Min Pan*, Zheng Huang, Yong Zhao, The study of defect structure in tungsten: rotation and migration property for the self-interstitial atoms, Fusion Engineering and Design, 2017, dio,10.1016/j.fusengdes.2017.02.086. (SCI)
18) Hongyan Chang, Zheng Huang, Shulong Wen, Ji ming Chen, Xiang Liu, Min Pan*, Yong Zhao, The influence of crystal defects on the elastic properties of tungsten metals, Fusion Engineering and Design, 2016, 111, p 321-325. (SCI)
19) Hong Zhang, Shu-Long Wen, Min Pan*, Zheng Huang, Yong Zhao, Xiang Liu, and Ji-Ming Chen, Stability of concentration-related self-interstitial atoms in fusion material tungsten, Chin. Phys. B, 25, 5 (2016), 056102. (SCI)
20) Shu long Wen, Ji ming Chen, Xiang Liu, Hao Zhu, Hong yan Chang, Zheng Huang, Min Pan*, Yong Zhao, First-principles study on mono-vacancy self diffusion and recovery in tungsten crystal,Fusion Engineering and Design, 2016, 109, p569-573. (SCI)
21)Y. Zhang, S. Deng, M. Pan, M. Lei, X. Kan, Y. Ding, Y. Zhao and J. Ko hler,Preparation and characterization of a possible topological
insulator BiYO3: experiment versus theory, Phys. Chem. Chem. Phys., 2016, 18, 8205-8211 . (SCI)
22) 潘敏,黄整,赵勇*,强关联效应下非磁性元素Ir掺杂的SmFeAsO,物理学报,Vol. 62:21, pp 217401,2013. (SCI)
23) M. Pan, Zh. Huang, H. F. Ma, Y. Zhao*, Possible coexistence of SDW state with superconductivity in Ir doped SmOFeAs, Solid State Commun., Vol. 152: 458, pp458-461,2012. (SCI)
24) M. Pan, Y. Feng, C. H. Chen, Y. Zhao*, First-principles Study of Lattice, Magnetism and Electronic Structure for Fe-Based Superconductors: LaOFeAs, AFe2As2 (A=Sr, Ca), MFeAs (M=Li, Na) and FeSe, Rare Metal Materials and Engineering, Vol. 41(8),pp1341-1345,2012. (SCI)
25) M. Pan, Zh. Huang, C. H. Chen, Y. Zhao*, The magnetism for NN AFM ground state in Fe-based superconductor: Sr1-xKxFe2As2, Solid State Commun., Vol. 151, pp667-670, 2011. (SCI)
26) M. Pan, H. F. Ma, J. T. Zhu, Y. Zhao*, Distorted magnetic orders and electronic structures for FeSe under pressure,Physica C, Vol. 471, pp603-607, 2011. (SCI)
27) M. Pan, Zh. Huang, H. F. Ma, Y. Zhao*, ab initio study of 5d-shells Ir substitution for Fe-based SmOFe1-xIrxAs, J. Phys. Chem. Solids, Vol. 72, pp 329-332. 2011. (SCI)
30) M.Pan, Zh. Huang, H. F. Ma, Y. Zhao, The doping effect on the lattices and electronic structure in superconducting Fe-based compounds Sr1-xKxFe2As2. J Supercond Nov Magn. 2010, 23, 985. (SCI)
31) M.Pan, Zh. Huang, H. F. Ma, Y. Zhao, The effect of pressure and doping on magnetic properties for SmOFeAs system, Southwest jiaotong university press, 2010,45(6).(EI)
32) M.Pan, Z. Huang, H. F. Ma, Y. Zhao, The influence of impurity to the critical thickness of the CeO2 buffer layer for coated conductors. Science in China, 2009,52(7), 993. (SCI)
33) 潘敏,黄整,麻焕峰,赵勇,掺杂对涂层超导体缓冲层薄膜临界厚度的影响,中国科学,G辑,2009,5(39)(SCI)
二. 专利情况