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李思殿

李思殿,男,来自汉族,1959年10360百科月生,山西省河津市人。北京师范大学理学学士,山西大学理学硕士,西安交通大学工学博士,物理化学教授,博士生导师,山西省化学会副理事长,山西省高等学校中青年拔尖创新人才,山训散湖罪初还处西省委联系高级专家,国务院政府特殊津贴专家。

现任山西大学党委副书记(正校级)。

  • 中文名称 李思殿
  • 国籍 中国
  • 民族 汉族
  • 出生地 山西河津市
  • 出生日期 1959年10月

个人履历

  1982年-1985年于北京师范大学获得学士学位,1985年-1988年于山西大学获得理学硕士学位,2000年-2003年于西超宜关松盟川往安交通大学获得工学博士学位。1988年-1996年于运城高等专科学校任教;1995年破格晋升教授;1997年-2000年,来自任太原师范专科学校 校长;2000年-2011年,任忻州师范学院院长;2011年以来任山西大学副校长。1990年以来多次应邀赴英国萨塞克思大学(University of Sussex)、美国太平洋西北国家输易素农实验室(Pacific Northwest National Laboratory, PNNL)及华盛顿州立大学(W该超完空案胡看车状续ashington State Un刚受红修展iversity, WSU)从360百科事合作研究。2001年参加中央党校培训,2002年参加外交学院培训,2003年受中组部斗方路乎学宣致派遣参加哈佛大学肯材燃科做船础国尼迪政府学院"高级行政管理"培训项目(Senior Executi传香括ve Fellows,SEF)。

发表论文

  英国《自然·化学》杂志 (Nature 待力球传散Chemistry)、美国化学会《化学研究进展报告》 (Accounts of Chemical Research)、《美国化学会会志》 (J. Am. Chem. Soc.)、德国《应用化学》 (Angew. Chem. 模宜散Int. Ed.)、《无机化学》(Inorg. Chem.)、《物理评论B》(Phys. Rev. B)、英国《化学会会志》(J. C指审hem. Soc.)、《物理化学-化学物展儿调视理》(Phys. Chem. Chem. Phys)、《欧洲无机化学》(Eur. J. Inorg. Chem.)及国内《中国科学》、《化学学报》等发表科研论文110余篇。编著《化学原理基础》一书,同时在《中国高等教育》及《中国大学教学》等发表多篇高许轴谓古部差等教育管理和改革民始践里理振括离整采研究论文。

科研成果

  科研方面,主要从事结构化学、材料化学和计算化学的物夫行爱尼末副结底本曲理论和实验研究。1990年以来多次应邀赴英国萨塞克思大学(University of Sussex)、美国太平洋西北国家实验室(Pacific Northwest National Laboratory, PNNL来自)及华盛顿州立大学360百科(Washington State University, WSU)从事合作研究。二十多年来,先后承担各谈铁明台保川季和完成国家自然科学基金项目3项、教育部"人才培养模式创新实验区"项目一项、山西省自然科学基金项目、国际合作项目及回国留学太确质凯稳基金项目8项, 在英喜静父形型手态制济差国《自然.化学》杂志(Nature Chemistry)、美国化学会《化学研究进展报告》(Accounts of Chemical Research)、《美国制径立木化束化学会会志》(J. Am. Chem. Soc.)、德国《应用化学》(Angew. Chem. Int. Ed.)、《无机化学》(Inorg. Chem.)、《物理评论B》(Phys. Rev. B)、英国《化学会会志》(石审兴流明里J. Chem. Soc.)、《物理化学-化学物理》(Phys. Chem. Chem. Phys)、《欧洲无机化学》(Eur. J. Inorg. Chem.)及国内《中国科学》、《化学学报》等学术刊物上发表专业研究论文110余篇,编著《化学原理基础》教材一本,同时在《中国高等教育》及《中国大学教学》等发表多篇高等教育管理和改革研究论文。

速绝由斤抗船精号争特术成果

  Obs轮九移兵星哥ervation of an All-Boron Fullerene,Hua-J沿操复装拉整与端积建参in Zhai, Ya-Fan Zhao, Wei-Li Li, Qi自群显业线抓回ang Chen, Hui Bai, Han-Shi Hu, Zachary A. Piazza, Wen-Juan Tian, Hai-Gang Lu, Yan-Bo Wu, Yue-Wen Mu, Guang-Feng Wei, Zhi-Pan Liu, Jun Li*, Si-Dian Li*, and Lai-Sheng Wang*,Natu低盟持越能织互径re Chemistry, 2014, 6, 727–731.

  Endohedral and Exohedral Metalloborospherenes: M@B40 (M=Ca, Sr) and M&B40 (M=Be, Mg). Hui Bai, Qiang Chen, Hua-Jin Zhai*, and Si-Dian Li *,Ange胜质门够刘尽清只w. Chem. Int. Ed., 2015, 54, 941-945.

  Experimental and Theoretical Evidence o修企着井冲斯每看罪投f an Axially Chiral Borospherene. Qiang Chen, Wei-Li Li,Ya-Fan Zhao, Su-Yan Zhang, Ha改源急层肉控说程约钱酸n-Shi Hu, Hui Bai, Hai-Ru Li, Wen-Juan Tian, Hai-Gang Lu, Hua-J收激容艺速赶in Zhai*,Si-Dian Li*, Jun Li*,and Lai-Sheng Wang*, ACS Nano, 2015, 9,754–760.

  The B35 Cluster with a Double-Hexagonal Vacancy: A New and More Flexible Structural Motif for Borophene. Wei-Li Li, Qiang Chen, Wen-Juan Tian, Hui Bai, Ya-Fan Zhao, Han-Shi Hu, Jun Li*, Hua-Jin Zhai*, Si-Dian Li*, and Lai-Sheng Wang* ,J. Am. Chem. Soc., 2014, 136, 12257–12260.

  Quasi-planar aromatic B36 and B36– clusters: all-boron analogues of coronene. Qiang Chen, Guang-Feng Wei, Wen-Juan Tian, Hui Bai, Zhi-Pan Liu, Hua-Jin Zhai, and Si-Dian Li*, Phys. Chem. Chem. Phys., 2014, 16, 18282-18287.

  Boronyl Chemistry: The BO Group as a New Ligand in Gas-Phase Clusters and Synthetic Compounds. Hua-Jin Zhai, Qiang Chen, Hui Bai, Si-Dian Li*, and Lai-Sheng Wang*, Accounts Chem. Res., 2014, 47, 2435-2445.

  Ribbon Aromaticity in Double-chain Planar BnH22− and Li2BnH2 Nanoribbon Clusters up to n = 22: Lithiumated Boron Dihydride Analogues of Polyenes.Hui Bai, Qiang Chen, Chang-Qing Miao, Yue-Wen Mu, Yan-Bo Wu, Hai-Gang Lu, Hua-Jin Zhai* and Si-Dian Li*, Phys. Chem. Chem. Phys., 2013, 15, 18872-18880.

  Photoelectron Spectroscopy of Boron-gold Alloy Clusters and Boron Boronyl Clusters: B3Aun− and B3(BO)n− (n=1, 2). Qiang Chen, Hui Bai, Hua-Jin Zhai*, Si-Dian Li*, and Lai-Sheng Wang*, J. Chem. Phys., 2013, 139, 044308.

  Photoelectron Spectroscopy of Aromatic Compound Clusters of the B12 all Boron Benzene B12Au and B12(BO)−. Hui Bai, Hua-Jin Zhai, Si-Dian Li*, and Lai-Sheng Wang*, Phys. Chem. Chem. Phys., 2013, 15,9646-9653.

  Pi and Sigma Double Conjugations in Boronyl Polyboroene Nanoribbons: Bn(BO)2− and Bn(BO)2 (n = 5−12). Hua-Jin Zhai*, Qiang Chen, Hui Bai, Hai-Gang Lu, Wei-Li Li, Si-Dian Li*, and Lai-Sheng Wang*, J. Chem. Phys., 2013, 139, 174301.

  Perfectly Planar Boronyl Boroxine D3h B6O6: A Boron Oxide Analog of Boroxine and Benzene. Da-Zhi Li, Hui Bai, Qiang Chen, Haigang Lu, Hua-Jin Zhai*, and Si-Dian Li*, J. Chem. Phys., 2013, 138, 244304.

  Two-dimensional Carbon Allotropes From Graphene to Graphyne. Haigang Lu* and Si-Dian Li, J. Mater. Chem. C, 2013, 1, 3677.

  Face-Capping μ3-BO in B6(BO)7–: Boron Oxide Analogue of B6H7– with Rhombic 4c–2e Bonds. Jin-Chang Guo, Hai-Gang Lu*, Hua-Jin Zhai, and Si-Dian Li*, J. Phys. Chem. A, 2013, 117, 11587.

  First-principles Investigations on C5O5–/0 and C6O6–/0 Oxocarbons. Jin-Chang Guo, Hai-Gang Lu*, and Si-Dian Li*, Comput. and Theoret. Chem., 2013, 9, 1007.

  Comment on "Two-Dimensional Boron Monolayer Sheets". Haigang Lu*, and Si-Dian Li, ACS Nano, 2013, 7, 879.

  Three-chain B6n+14 Cages as Possible Precursors for the Syntheses of Boron Fullerenes.Haigang Lu* and Si-Dian Li, J. Chem. Phys., 2013, 139, 224307.

  Covalent Bonding in Au(BO)2– and Au(BS)2–. Chang-Qing Miao, Hai-Gang Lu*, and Si-Dian Li*, J. Clust. Sci., 2013, 24, 233.

  Planar D2h B26H8, D2h B26H82+, and C2h B26H6: Building Blocks of Stable Boron Sheets with Twin-Hexagonal Holes. Wen-Juan Tian, Hui Bai, Hai-Gang Lu, Yan-Bo Wu*, and Si-Dian Li*, J. Clust. Sci., 2013, 24, 1127.

  M(C6X6Li6)2 (M = Cr, Mo, W; X = O, S): Transition-metal Sandwich Complexes with π-aromatic C6X6Li6 Ligands. Jin-Chang Guo, Hai-Gang Lu*, and Si-Dian Li*, Comput. and Theoret. Chem., 2013, 95, 1018.

  Binary nature of Monolayer Boron Sheets From ab initio Global Searches. Hai-Gang Lu*, Yue-Wen Mu, Hui Bai, Qiang Chen, and Si-Dian Li*, J. Chem. Phys., 2013, 138, 024701.

  Probing the Low-Lying Electronic States of Cyclobutanetetraone(C4O4) and Its Radical Anion: A Low-Temperature Anion Photoelectron Spectroscopic Approach. Jin-Chang Guo, Gao-Lei Hou, Si-Dian Li*, and Xue-Bin Wang, J. Phys. Chem. Lett., 2012, 3, 304-308.

  Probing the Structures and Chemical Bonding of Boron-boronyl Clusters Using Photoelectron Spectroscopy and Computational Chemistry:B4(BO)n– (n = 1–3). Qiang Chen, Hua-Jin Zhai, Si-Dian Li* , and Lai-Sheng Wang*, J. Chem. Phys., 2012, 137, 044307.

  On the Structures and Bonding in Boron-Gold Alloy Clusters:B6Aun– and B6Aun(n = 1−3).Qiang Chen, Hua-Jin Zhai, Si-Dian Li* and Lai-Sheng Wang, J. Chem. Phys., 2013, 138, 084306.

  B30H8, B39H92−, B42H10, B48H10, and B72H12: Polycyclic Aromatic Snub Hydroboron Clusters Analogous to Polycyclic Aromatic Hydrocarbons. Hui Bai, Qiang Chen, Ya-Fan Zhao, Yan-Bo Wu, Hai-Gang Lu, Jun Li, and Si-Dian Li*, J. Mol. Model., 2012, 19, 1195–1204.

  Double-chain Planar D2h B4H2, C2h B8H2, and C2h B12H2: Conjugated Aromatic Borenes.Da-Zhi Li, Qiang Chen, Yan-Bo Wu, Hai-Gang Lu and Si-Dian Li*, Phys. Chem. Chem. Phys., 2012, 14, 14769-14774.

  Planar π-aromatic C3h B6H3+ and π-antiaromatic C2h B8H2: Boron Hydride Analogues of D3h C3H3+ and D2h C4H4.Da-Zhi Li, Qiang Chen, Yan-Bo Wu, Hai-Gang Lu and Si-Dian Li*, J. Mol. Model., 2012, 18, 3161-3167.

  Bridging η2-BO in B2(BO)3– and B3(BO)3– Clusters: Boronyl Analogs of Boranes. Hua-Jin Zhai, Jin-Chang Guo, Si-Dian Li* , and Lai-Sheng Wang*, ChemPhysChem., 2011,12, 2549-2553.

  Perfectly planar concentric π-aromatic B18H3–, B18H4, B18H5+, and B18H62+ with [10]annulene Character.Qiang Chen, Hui Bai, Jin-Chang Guo, Chang-Qing Miao, and Si-Dian Li*, Phys. Chem. Chem. Phys., 2011, 13, 20620-20626.

  Deciphering the Mystery of Hexagon Holes in an All-boron Grapheme α-sheet. Timur R. Galeev, Qiang Chen, Jin-Chang Guo, Hui Bai, Chang-Qing Miao, Hai-Gang Lu, Alina P. Sergeeva, Si-Dian Li*, and Alexander I. Boldyrev, Phys. Chem. Chem. Phys., 2011, 13, 11575-11578.

  Bn(BO)n2–, CBn-1(BO)n–, and C2Bn-2(BO)n (n = 5-12): Cage-like Boron Oxide Clusters Analogous Tocloso-BnHn2–, CBn-1Hn–, and C2Bn-2Hn.Chang-Qing Miao, and Si-Dian Li*, Science in China Series B: Chemistry, 2011, 54, 756-761.

  Bridging Gold: B-Au-B Three-Center- Two-Electron Bonds in Electron-Deficient B2Aun–/0 (n =1, 3, 5) and Mixed Analogues. Wen-Zhi Yao, Da-Zhi Li, and Si-Dian Li*, Int. J. Quan. Chem., 2011, 32, 218-225.

  Hydrogenation of B120/–: A Planar-to-Icosahedral Structural Transition in B12Hn0/– (n=1-6) Boron Hydride Clusters.Hui Bai, and Si-Dian Li*, J Clust Sci., 2011, 22, 525-535.

  π-Aromatic B16H6: A Neutral Boron Hydride Analogue of Naphthalene. Qiang Chen, and Si-Dian Li*, J Clust Sci., 2011, 22, 513-523.

  An Ab Initio Theoretical Investigation on the Geometrical and Electronic Structures of BAun–/0 (n =1-4) Clusters.Da-Zhi Li, and Si-Dian Li*, Int. J. Quan. Chem., 2011, 111, 4418-4424.

  On the analogy of B-BO and B-Au Chemical Bonding in B11O– and B10Au– Clusters.Hua-Jin Zhai, Chang-Qing Miao, Si-Dian Li* , and Lai-Sheng Wang*, J. Phys. Chem. A, 2010, 114, 12155-12161.

  B2(BO)22–/– Diboronyl Diborene: A Linear Molecule with a Triple Boron-Boron Bond.Si-Dian Li*, Hua-Jin Zhai, and Lai-Sheng Wang*, J. Am. Chem. Soc., 2008, 130, 2573-2579.

  Boronyls as Key Structural Units in Boron Oxide Clusters: B(BO)2– and B(BO)3–. Hua-Jin Zhai, Si-Dian Li*, and Lai-Sheng Wang*, J. Am. Chem. Soc., 2007, 129, 9254-9255.

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