孙立成

主要学历及工作经历:

孙立成，男，1962年8月生于黑龙江省东宁县。1984年7月毕业于大连工学院，1987年6月大连工学院化工学院硕士研究生毕业， 1990年7月获大连理工大学工学博士学位,师从杨锦宗教授。1992年至1993年在德国马普辐射化学研究所作博士后，从事生物体系光化学及光物理研究。1993年至1995年获德国洪堡奖励基金，从事生物光合作用体系的模型化学(Porphyrin-Qinone)研究。1995年2月被聘为瑞典人工光合作用计划特聘研究员。1997年3月被聘为瑞典皇家工学院(KTH)化学系助理教授。从1999年2月起被瑞典皇家工学院(KTH)聘为副教授(Docent)，博士生导师，从事人工光和作用及太阳能转换研究。 从1999年9月起孙立成博士任瑞典斯德哥尔摩大学人工光合作用研究计划负责人、化学系副教授、研究室主任、博士生导师。从2001年3月起孙立成博士获得瑞典斯德哥尔摩大学化学系终身职位。从2004年10月起孙立成博士获得瑞典皇家工学院(KTH)化学系终身教授职位(Full Professor Chair position)。从2001年9月起被教育部聘为长江学者作为大连理工大学特聘教授，博士生导师。

近10年来，孙立成教授在国际重要学术期刊(Angew. Chem.Int. Ed., J. Am. Chem.Soc., Inorg. Chem., Chem. Eur. J.等)及大型国际学术会议上发表论文120多篇，多次被邀请撰写述评，其研究成果引起欧美澳大利亚等国的高度重视。作为项目负责人获得了多项瑞典国家自然科学基金。基金委海外杰出青年基金和科技部重大基础研究前期专项基金。

主要学术及社会兼职:

孙立成教授为国际重要学术期刊 Angew. Chem., Inorg. Chem., Chem. Eur. J., J. Photochem. Photobiol.申稿人。孙立成教授是美国化学会会员、瑞典化学会会员、国际生物无机化学会会员。

研究领域（研究课题）:

人工光合作用

指导硕、博士生研究方向:

1. 生物无机化学

2. 分子器件

3. 光体系Ⅱ的化学模拟，氢化酶的化学模拟

4. 超分子化学及光化学

5. 新型太阳能电池

出版著作和论文:

55. “Mono- and binuclear complexes of iron(II) and iron(III) with an N4O ligand: synthesis, structures and catalytic properties in alkane oxidation”, F. Li, M. Wang, C. Ma, A. Gao, H. Chen, L. Sun, Dalton Transactions, 2006, 2427-2434.

54. “Synthesis of chiral salen Mn(III) complexes covalently linked to Re(I)-based photosensitizers”, Y. Chen, M. Wang, K. Jin, D. Wang, Y. Na, L. Sun, Jorunal of Coordination Chemistry, 2006, 59, 475-484.

53. “A novel ruthenium(II) tris(bipyridine)-zinc porphyrin-rhenium carbonyl triad: synthesis and optical properties”, X. Liu, J. Liu, J. Pan, R. Chen, Y. Na, W. Gao, L. Sun, Tetrahedron, 2006, 62, 3674-3680.

52. “A furan-containing diiron azadithiolate hexacarbonyl complex with unusual lower catalytic proton reduction potential”, S. Jiang, J. Liu, L. Sun, Inogranic Chemistry Communications, 2006, 9, 290-292.

51. “Synthesis, structures and electrochemical properties of amino-derivatives of diiron azadithiolates as active site models of Fe-only hydrogenase”, W. Gao, J. Liu, C. Ma, L. Weng, K. Jin, C. Chen, B. Åkermark, L. Sun, Inorganica Chimica Acta, 2006, 359, 1071-1080.

50. “An insight into the protonation property of a diiron azadithiolate complex pertinent to the active site of Fe-only hydrogenases”, W. Dong, M. Wang, X. Liu, K. Jin, G. Li, F. Wang, L. Sun, Chem.Commun., 2006, 305-307.

49. “The bromination mechanism of 1-aminoanthraquinone-2,4-disulfonic acid in sulfuric acid”, X. Yang, Z. Wu, L. Sun, C. Ni, Dye and Pigments, 2006, 71, 177-181.

48. “Asymmetric epoxidation of styrene and chromenes catalysed by chiral (salen)Mn(III) complexes with a pyrrolidine backbone”, D. Wang, M. Wang, X. Wang, Y. Chen, A. Gao, L. Sun, Journal of Catalysis, 2006, 237, 248-254.

47. “Axial Ligand Exchange Reaction on Ruthenium Phthalocyanines”, X. Yang, M. Kritikos, B. Åkermark, L. Sun, J. Porphyrins Phthalocyanines, 2005, 9, 248-255.

46. “Coordination polyhedra of eight-coordinate zirconium complexes and a network built up by crisscross Cl_ _ _Cl contacts”, H. Zhu, M. Wang, K. Jin, D. Dai, L. Sun, Transition Metal Chemistry ,2005, 30, 517–522.

45. “Preparation and structures of 6- and 7-coordinate salen-type zirconium complexes and their catalytic properties for oligomerization of ethylene”, H. Zhu, M. Wang, C. Ma, B. Li, C. Chen, L. Sun, Journal of Organometallic Chemistry, 2005, 690, 3929–3936.

44. “Influence of Tertiary Phosphanes on the Coordination Configurations and Electrochemical Properties of Iron Hydrogenase Model Complexes: Crystal Structures of

[(μ-S2C3H6)Fe2(CO)6–nLn] (L = PMe2Ph, n = 1, 2; PPh3, P(OEt)3, n = 1)”, P. Li, M. Wang, C. He, G. Li, X. Liu, C. Chen, B. Åkermark, and L. Sun, Eur. J. Inorg. Chem., 2005, 2506-2513.

43. “Synthesis and property of a chiral salen Mn(III) complex covalently linked to an Ru(II) tris(bipyridyl) photosensitizer”, Y. Chen, M. Wang, K. Jin, D. Wang, Y. Na, L. Sun, Inorg. Chem. Commun., 2005, 8, 606-609.

42. “Spectroscopic and crystallographic evidence for the N-protonated FeIFeI azadithiolate complex related to the active site of Fe-only hydrogenases”, F. Wang, M. Wang, X. Liu,K. Jin, W. Dong, G. Li, B. Åkermark and L. Sun, Chem. Commun., 2005, 3221-3223.

41.“Synthesis,chatacterization and some properties of amide-linked porphyrin-ruthenium(II) tris(bipyridine) complexes”, X. Liu, J. Liu, K. Jin, X. Yang, Q. Peng, L. Sun, Tetrahedron, 2005, 61, 5655-5662.

40.“Synthesis, Structures and Electrochemical Properties of Nitro- and Amino-Functionalized Diiron Azadithiolates as Active Site Models of Fe-Only Hydrogenases”, C. He, M. Wang, X. Zhang, Z. Wang, C. Chen, J. Liu, B. Åkermark, L. Sun, Angew. Chem. Int. Ed., 2004, 43, 3571-3574.

39.“An Unusual Cyclization in a Bis(cysteinylthiolate) Diiron Complex Related to the Active Site of Fe-Only Hydrogenases”, T. Liu, M. Wang, Z. Shi, H. Cui, W. Dong, J. Chen, B. Åkermark, L. Sun, Chem. Euro. J., 2004, 10, 4474-4479.

38.“Synthesis, Structure and Magnetic Properties of a Series of Novel Isophthalate-Bridged Manganese(II) Polymers with Double-Layer or Double-Chain Structures”, C. Ma, C. Chen, Q. Liu, F. Chen, D. Liao, L. Li, and L. Sun, Eur. J. Inorg. Chem. 2004, 3316－3325.

37.“New oxygen-evolving complexes in artificial photosynthesis system splitting water into oxygen and hydrogen”, X. Peng, F. Shi, H. Li, R. Zhang, X. Chen, L. Sun, B. Akermark, Preprints of Symposia - American Chemical Society, Division of Fuel Chemistry(2004),49(2), 974-975.

36.“Synthesis, Structural Characterizations and Magnetic Properties of a Series of Mono-, Di- and Polynuclear Manganese Pyridinecarboxylate Compounds”, D. Huang, W. Wang, X. Zhang, C. Chen, F. Chen, Q. Liu, D. Liao, L. Li, and L. Sun, Eur. J. Inorg. Chem., 2004, 1454－1464.

35.“A Biomimetic Pathway for Hydrogen Evolution from a Model of the Iron Hydrogenase Active Site”, S. Ott, M. Kritikos, B. Åkermark, L. Sun, R. Lomoth, Angew. Chem. Int. Ed. 2004, 1006-1009.

34.“Carotenoid and Pheophytin on Semiconductor Surface: Self-Assembly and Photoinduced Electron Transfer”, J. Pan, Y. Xu, L. Sun, V. SundstrÖm, T. Polivka, J. Am. Chem. Soc. 2004, 126, 3066-3067.

33.“Salen-type Zirconium Complexes with a Labile Coordination Site and a Robust Skeleton. Crystal Structure of [(t-Bu4-salen)ZrCl2(H2O)]”, M. Wang, H. Zhu, D. Huang, K. Jin, C. Chen and L. Sun, J. Organomet. Chem., 2004, 689: 1212-1217.

32.“Intramolecular Charge Separation in a Hydrogen Bonded Tyrosine-Ruthenium(II)-Naphthalene diimide Triad”, O. Johansson, H. Wolpher, M. Borgström, L. Hammarström, J. Bergquist, L. Sun, B. Åkermark, Chem. Commun. 2003, accepted.

31.“Synthesis and Structure of a Biomimetic Model of the Iron Hydrogenase Active Site Covalently Linked to Ruthenium Photosensitizer”, S. Ott, M. Kritikos, B. Åkermark, L. Sun, Angew. Chem. Int. Ed. 2003, 3285-3288.

30.“Synthesis of an Amino-functionalized Model of the Fe-only Hydrogenase Active Site”, S. Salyi, M. Kritikos, B. Åkermark, L. Sun, Chem. Eur. J. 2003, 9, 557-560.

29. “Great Framework Variation of Polymers in the Manganese(Ⅱ) Maleate/a,a'-Diimine System: Syntheses,Structures, and Magneto-Structural Correlation”, C. Ma, C. Chen, Q. Liu, F. Chen, D. Liao, L. Li, L. Sun, Eur. J. Inorg. Chem. 2003, 2872-2879.

28.“Electron Donor-Acceptor Dyads and Triads Based on Ruthenium(II) tris-bipyridine and Benzoquinone: Synthesis, Characterization and Photo-induced Electron Transfer Reactions”, M. Borgström, O. Johansson, R. Lomoth, H. Berglund Baudin, S. Wallin, L. Sun, B. Åkermark, L. Hammarström, Inorg. Chem. 2003, 42, 5173-5184.

27.“Photoinduced Electron Transfer from Ruthenium Poly-pyridines to Naphthalene Diimide”, O. Johansson, M. Borgström, R. Lomoth, M. Palmblad, J. Bergquist, L. Hammarström, L. Sun, B. Åkermark, Inorg. Chem. 2003, 42, 2908-2918.

26.“Aggregate Manganese Schiff Base Moieties by Terephthalate orAcetate: Dinuclear Manganese and Trinuclear Mixed Metal Mn2/Na Complexes”, C. Chen, D. Huang, X. Zhang, F. Chen, H. Zhu, Q. Liu, D. Liao, L. Sun, Inorg. Chem. 2003, 42, 3540-3548.

25.“Synthesis and Characterization of a Mixed Valence Dinuclear Ruthenium(II/III) Complex with a (m-phenoxo)bis(m-acetato) Core”, R. Lomoth, A. Magnuson, Y. Xu, L. Sun, J. Phys. Chem. A 2003, 107, 4373-4380.

24.“Structural transformation mediated by o-, m-, and p-phthalates from two to three dimensions for manganese/phthalate/4,4'-bpy complexes(4,4'-bpy = 4,4'-bipyridine)”, C. Ma, C. Chen, Q. Liu, D. Liao, L. Li, L. Sun, New J. Chem. 2003, 27, 890-894.

23.“Synthesis, structural characterization and magnetic properties of 2-pyrazinecarboxylate manganese compounds[Mn(pyz)2(H2O)4] and [MnCl(pyz)(H2O)]n(pyz = 2-pyrazinecarboxylate”, D. Huang, X. Zhang, C. Chen, F. Chen, Q. Liu, D. Liao, L. Li, L. Sun, Inorg. Chim. Acta, 2003, 353, 284-291.

22.“Synthesis and Properties of an Iron Hydrogenase Active Site Model Linked to a Ruthenium tris-Bipyridine Photosensitizer”, H. Wolpher, M. Borgström, L. Hammarström, J. Bergquist, V. sundström, S. Styring, L. Sun, B. Åkermark, Inorg. Chem. Commun. 2003, 6, 989-991.

21.“Towards Solar Energy Conversion into Fuels. Design and Synthesis of Ruthenium-Manganese Supramolecular Complexes to Mimic the Function of Photosystem II”, L. Sun, B. Åkermark, L. Hammarström, S. Styring, Special Volume for the ACS Symposium Series on Utilization of Greenhouse Gases, Ed. C.-J. Liu, M. Aresta and R. G. Mallinson, 2003, 219-244.

20.“Photoinduced Electron Transfer Between a Carotenoid and TiO2 Nanoparticle”, J. Pan, G. Benkö, Y. Xu, T. Pascher, L. Sun, V. Sundström and T. Polívka, J. Am. Chem. Soc. 2002, 124, 13949-13957.

19.“Modified Phthalocyanines for Efficient Near-IR Sensitization of Nanostructured TiO2 Electrode”, J. He, G. Benkö, F. Korodi, T. Polívka, R. Lomoth, B. Åkermark, L. Sun, A. Hagfeld, and V. Sundström, J. Am. Chem. Soc. 2002, 124, 4922-4932.

18.“Synthesis, Characterization, redox Properties, and Reactivity of one Mononuclear and two Dinuclear Manganese(III) Complex of the Ligand N,N-bis(2-Hydroxybenzyl)-N’-2- hydroxybenzylidene-1,2-diaminoethane", H. Schmitt, R. Lomoth, A. Magnuson-Styring, J. Park, J. Fryxelius, M. Kritikos, J. Mårtensson, L. Hammarström, L. Sun, B. Åkermark, Chem. Eur. J. 2002, 8, 3757-3768.

17.“Light-Driven Tyrosyl Radical Formation on Nanocrystalline TiO2”, R. Ghanem, Y. Xu, J. Pan, T. Hoffmann., J. Andersson, T. Polivka, L. Sun, V. Sundström, Inorg. Chem. 2002, 41, 6258-6266.

16.“Ruthenium-Manganese Complexes for Artificial Photosynthesis: Factors Controlling Electron Transfer and Excited State Quenching Reactions", M. L. A. Abrahamsson, H. Berglund Baudin, A. Tran, C. Philouze, K. E. Berg, M. K. Raymond-Johansson, L. Sun, B. Åkermark, S. Styring, L. Hammarström, Inorg. Chem. 2002, 41, 1534-1544.

15.“Synthesis and Characterization of a New Dinuclear Manganese(III/III) Complex with Three Phenolate Ligands”, R. Lomoth, P. Huang Kenéz, J. Zheng, L. Sun, L. Hammarström, B. Åkermark, S. Styring, Eur. J. Inorg. Chem. 2002, 2965-2974.

14.“XPS and UPS Characterization of the TiO2/ZnPcGly Heterointerface: Alignment of Energy Levels”, G. Liu, W. Jaegermann, J. He, V. Sundström, L. Sun, J. Phys. Chem. B 2002, 106, 5814-5819.

13.“Three-Step Oxidation of a Mn2(II,II) Dimer to Mn2(III,IV) by Photo-generated Ru(III): Towards a Functional Mimic of the Water Oxidizing Center in Photosystem II”, P. Huang Kenéz, A. Magnuson, M. Abrahamsson, R. Lomoth, M. Tamm, L. Sun, B. van Rotterdam, J. Park, L. Hammarström, B. Åkermark, S. Styring, J. Inorg. Biochem. 2002, 91, 159-172.

12.“The Mechanism for Proton Coupled Electron Transfer from Tyrosine in a Model Complex and Comparisons with TyrosineZ Oxidation in Photosystem II”, M. Sjödin, S. Styring, B. Åkermark, L. Sun, L. Hammarström, Phil. Trans. R. Soc. Lond. B 2002, 357, 1471-1479.

11.“Ruthenium Phthalocyanines with Axial Carboxylate Ligands. Synthesis and Function in Solar Cells Based on Nanocrystalline TiO2”, M. Yanagisawa, F. Korodi, J. He, L. Sun, V. Sundström, B. Åkermark, J. Porphyrins Phthalocyanines 2002, 6, 217-224.

10.“Light driven multistep electron transfer in a tyrosine-ruthenium complex anchored to TiO2 nanoparticles”, R. Ghanem, J. Pan, Y. Xu, J. Andersson, T. Polivka, L. Sun, V. Sundstroem, Femtochemistry and Femtobiology: Ultrafast Dynamics in Molecular Science, (Conference Proceeding, Toledo, Spain, Sept. 2-6, 2001), 2002, 686-695.

9.“Synthesis and EPR study of Ru-Mn dimer complexes as catalysts for light-driven water oxidation: Towards solar energy conversion into fuels”, L. Sun, A. Tran, Y. Xu, R. Lomoth, P. Huang; A.Magnuson; B. Akermark, L. Hammarstrom, S. Styring, Preprints of Symposia - American Chemical Society, Division of Fuel Chemistry 2002, 47(1), 300-303.

8.“From Natural to Artificial Photosynthesis: Ruthenium-Manganese Chemistry for Energy Production”, L. Sun, S. Styring, B. Åkermark, L. Hammarström, Chemical Society Reviews, 2001, 30, 36-49.

7.“Phthalocyanine-sensitized Nanostructured TiO2 Electrodes Prepared by a Novel Anchoring Method”, J. He, A. Hagfeldt, S.-E. Lindquist, H. Grennberg, F. Korodi, L. Sun, B. Åkermark, Langmuir 2001, 17, 2743-2747.

6.“Synthesis, Characterization and Electron Transfer in a Series of Covalently Linked Ru(II)-Mn(II) Complexes: Simple Biomimetic Systems for Photosynthesis”, K. E. Berg, A. Tran, M. K. Ramond, M. Abrahamsson, J. Wolny, S. Redon, M. Andersson, L. Sun, S. Styring, L. Hammarström, H. Toftlund, B. Åkermark, Eur. J. Inorg. Chem. 2001, 1019-1029.

5.“Supramolecular catalysts for light-induced production of fuel, based on the principles of natural photosynthesis”, L. Sun, L. Hammarström, B. Åkermark, S. Styring, J. Inorg. Biochem. 2001, 86, 447.

4.“Ruthenium-manganese complexes for solar energy conversion”, P. Huang Kenéz, A. Magnuson, R. Lomoth, A. Tran, J. Fryxelius, H. Schmitt, H. Berglund Baudin, M. Abrahamsson, J. Högblom, B. van Rotterdam, J. Park, L. Hammarström, B. Åkermark, L. Sun, S. Styring, J. Inorg. Biochem. 2001, 86, 271.

3.“Three and four step oxidation of mixed-valence Mn-dimers: mimicking the oxygen evolving complex in Photosystem II”, J. Högblom, P. Huang Kenéz, A. Magnuson, M. Abrahamsson, R. Lomoth, B. van Rotterdam, L. Sun, J. Park, J. Zheng, L. Hammarström, B. Åkermark, S. Styring, J. Inorg. Biochem. 2001, 86, 266.

2.“A Biomimetic Approach to Artificial Photosynthesis: Ru(II)-polypyridine Photo-Sensitizers Linked to Tyrosine and Manganese Electron Donors”, L. Hammarström, L. Sun, B. Åkermark, S. Styring, Spectrochimica Acta A 2001, 37, 2145-2160.

1.“Mimicking photosystem II reactions in artificial photosynthesis”, L. Hammarström, L. Sun, B. Åkermark, S. Styring, PS 2001 Proceedings. 12th International Congress on Photosynthesis. CSIRO PUBLISHING, ISBN: 0643067116. 2001, S38-002.

科研成果及所受奖励:

作为瑞典人工光合作用研究的发起人和关键骨干，首次实现了金属Ru络合物与Mn络合物的光电子转移，成功地模拟了生物光合作用体系II给体部分的光诱导电子转移过程，为人类利用生物工程将太阳能直接转换成燃料指明了方向，因此激起了欧洲及美国和日本等国家人工光合作用研究的新浪潮。

近5年来，孙立成教授在国际重要学术期刊及大型国际学术会议上发表论文60多篇，多次被邀请撰写述评，并代表瑞典参加了欧共体研究项目。其研究成果被瑞典及挪威国家新闻媒介(电视广播报纸)多次报道。作为负责人获得了多项瑞典国家自然科学基金、瑞典Wallenberg基金、瑞典国家能源部基金，欧共体TMR基金。从2000年3月起与中国(大连理工大学)建立了科研合作，被大连理工大学聘为特聘教授、博士生导师，并在一年内三次回国讲学、科研，为国内培养博士生及高科技人才，在短期内获中国教育部重点学科基金、科技部专项基金、中国国家自然科学基金等。孙立成教授在人工光合作用研究领域中具国际领先水平。

在读硕士、博士人数:

21

已毕业硕士博士人数:

4

2 孙立成，男，1973年生，博士，副教授，硕士生导师。

曾先后在内蒙古畜牧学院，山东龙口油泵油嘴有限公司从事产品开发工作，哈尔滨工程大学学习和工作，2006年在日本京都大学进行博士后研究工作。主要科研成果：十五期间，参与了强化传热性能研究项目的科研工作，主要负责强化沸腾传热的研究工作。还参与了国家自然科学基金“摇摆对气液两相流流型的影响”、核电站固有安全性新方法等项目的研究工作，在国内外刊物及学术会议上发表论文10余篇。

主要研究方向：核动力装置性能。