| 查看: 27582 | 回复: 161 | |||
| 当前只显示满足指定条件的回帖,点击这里查看本话题的所有回帖 | |||
纳米镍粉荣誉版主 (职业作家)
我是大好人
|
[交流]
09年晶体牛人名家实验室链接介绍(回帖有金币) 已有10人参与
|
||
|
格式如下 姓名 单位 领域 业绩(论文,专著等等) 链接 中外专家不限 [ Last edited by 纳米镍粉 on 2009-5-27 at 00:24 ] [ Last edited by nash603 on 2011-3-23 at 15:41 ] |
回复此楼» 猜你喜欢
中南大学易小艺课题组诚招2026申请-考核制博士生
已经有0人回复
-
海南师范大学招收化学博士(光电功能材料课题组招收博士研究生)
已经有10人回复
-
无机化学论文润色/翻译怎么收费?
已经有143人回复
» 本主题相关商家推荐: (我也要在这里推广)
★ ★ ★ ★
小木虫(金币+0.5):给个红包,谢谢回帖交流
纳米镍粉(金币+3,VIP+0):谢谢 10-13 07:06
小木虫(金币+0.5):给个红包,谢谢回帖交流
纳米镍粉(金币+3,VIP+0):谢谢 10-13 07:06
|
小日本儿 Susumu Kitagawa Department of Synthetic Chemistry and Biological Chemistry Kyoto University Katsura, Nishikyo-ku, Kyoto, 615-8510, Japan TEL: +81-75-383-2733 FAX: +81-75-383-2732 Susumu Kitagawa was born in 1951, and received his Ph. D. at Kyoto University in 1979. He became Assistant Professor (1979), Lecturer (1983), and Associate Professor (1988) at Kinki University. He was promoted to Professor of Inorganic Chemistry at Tokyo Metropolitan University in 1992, and moved to Kyoto University as Professor of Functional Chemistry in 1998. He had been a visiting Scientist in F.A.Cotton Laboratory, Texas A & M University, during the period of 1986-1987, and an exchange professor in City University of New York in 1996. He received CSJ (Chemical Society of Japan)Young Scholars Lecture Series Award (1990), and the CSJ Award for Creative Work (2003). He is now a director of functional chemistry laboratory, where associate professor Masa-aki Ohba and two assistant professors Chang Ho-Chol and Takashi Uemura are working for him. The laboratory seeks to promote general precision science from the standpoint of structural control, property control, functional control and system control on every level, including the molecular level and the nanometer level by using molecular technology, and nanotechnology, and biotechnology (in collaboration with other laboratories). His main research fields are coordination chemistry, and his current research interests are centered on chemistry of novel molecularly organic-inorganic hybrid compounds, particularly chemical and/or physical properties of porous coordination polymers, from which “nanochannel laboratory” is developed towards the next decades. He is developing a new field, “Chemsitry of Coordination Space”, which promotes the design of new substances involving the dynamic structure of inorganic and organic composite molecular assemblies and composite electrons, and the creation of materials utilizing nanovoids, nonlinear phenomena, and quantum effect. EDUCATION AND POSITIONS 1998- Professor, Kyoto University, Kyoto, Japan Department of Synthetic Chemistry & Biological Chemistry 1992-1998 Professor, Tokyo Metropolitan University, Hachiouji, Tokyo, Japan Department of Chemistry 1988-1992 Associate Professor, Kinki University, Higashi-Osaka, Japan Department of Chemistry 1986-1987 Visiting Scientist, Department of Chemsitry, Texas A & M University F.A.Cotton Laboratory 1983-1988 Lecturer, Kinki University, Higashi-Osaka, Japan Department of Chemistry 1979-1983 Assistant Professor, Kinki University, Higashi-Osaka, Japan Department of Chemistry 1975-1979 Kyoto University, Kyoto, Japan Graduate School, Hydrocarbon Chemistry Thesis Supervisors: Professor Isao Morishima 1971-1974 Kyoto University, Kyoto, Japan Undergraduate course, Hydrocarbon Chemistry PROFESSIONAL RECOGNITION 2004 -2007 Leader of MEXT Grant; Priority Area, “Chemistry of Coordination Space” 2002 Asahi Glass Foundation Grant 2001 The Chemical Society of Japan Award for Creative Work for 2001 1999 Mitsubishi Foundation Science Grant 1997 Kumagai Foundation for the Promotion of Science Grant 1997 Sumitoto Foundation for the Promotion of Science Grant 1995 Nissan Foundation for the Promotion of Science Grant 1994 Chiba-Geigy Foundation(Japan) for the Promotion of Science Grant 1992 Izumi Foundation for the Promotion of Science Grant 1990 Yamada Foundation for the Promotion of Science Grant 1990 Young Scholars Lecture Series Award, the Chemical Society of Japan. CURRENT PROFESSIONAL SERVICES 2006 - Advisory Board Member of Chemistry, Asian Journal 2006 - Advisory Board Member of Chemistry of Materials 2006 - Advisory Board Member of Inorganica Chimica Acta 2006 - Advisory Board Member of Coordination Chemistry Reviews 2006 - Advisory Board Member of CrystEngComm 2006- Associate Editor, Journal of Synthesis and Reactivity in Inorganic, Metal-Organic and Nano-Metal Chemistry 2004 - Advisory Board Member of Chemistry Letters 2004 - Topic Editor for Crystal Growth & Design 2004 - Program Officer of JSPS 2001 - 2002 Vice-president, Japanese Society of Coordination Chemistry 1998 - 2003 Associate Editor, Crystal Engineering 1999 - 2002 Associate Editor, Chemistry Letters 1996 - 1999 Associate Editor, Bulletin of Chemical Society of Japan 1994 - 2000 A member of National Committee for Chemistry, Science Council of Japan. PUBLICATIONS Recent Reviews 1)Pore surface engineering of microporous coordination polymers S.-i.Noro, S.Kitagawa, and T.Nakamura, Chem.Commun. 2006,701-707. 2)Flexible microporous coordination polymers, S.Kitagawa and K.Uemura, J.Solid State Chem.2005.178,2420-2429. 3) Architecture and Function Engineering Based on Paddlewheel Dinuclear Tetracarboxylate Building-Blocks S.Kitagawa and S.Furukawa Frontiers in Crystal Engineering; ed. E. R. T. Tiekink and J. J. Vittal, John Wiley & Sons, p199-222, Ch.9,2005. December 9. 4) Dynamic Porous Properties of Coordination Polymers Inspired by Hydrogen Bonds S.Kitagawa and K.Uemura, Chem.Soc.Rev. 2005, 34, 109-119. 5) Nanocrystals of Coordination Polymers T.Uemura and S.Kitagawa, Chem.Lett. Highlight Review, 2005, 34,132-137. 6) Functional Porous Coordination Polymers, S.Kitagawa, R.Kitaura, and S.Noro, Angew.Chem.Int.Ed.,2004,43,2334-2375. Relevant Publications 1) Highly Controlled Acetylene Accommodation in a Metal−Organic Microporous Material R.Matsuda, R.Kitaura, S.Kitagawa, Y.Kubota, R.V.Belosludov, T.C.kobayashi, H.Sakamoto,T.Chiba, M.Takata, Y.Kawazoe, and Y.Mita, Nature, 2005,436, 238-241. 2) Radical polymerisation of styrene in porous coordination polymers, Chem.Comm., 2005, 5968 – 5970. Cover Picture 3) Direct Observation of Hydrogen Molecules Adsorbed in a Microporous Coordination Polymer Y.Kubota,M.Takata,R.Matsuda,R.Kitaura,S.Kitagawa,K.Kato,M.Sakata, and T.C. Kobayashi, Angew.Chem.Int.Ed.2004,44,2920-923. Cover of the Issue 4) Guest Shape-Responsive Fitting of Porous Coordination Polymer with Shrinkable Framework R.Matsuda, R.Kitaura , S.Kitagawa, Y.Kubota,, T. C. Kobayash, S.Horike, M.Takata J.Am.Chem.Soc. 2004,43,14063-14070. 5) Expanding and Shrinking Porous Modulation Based on Pillared-Layer Coordination Polymers Showing Selective Guest Adsorption T. K.Maji, K.Uemura, H.-C.Chang, R.Matsuda, S.Kitagawa Angew.Chem.Int.Ed. 2004,43,3269-3272. Cover of the Issue 6) Immobilization of Metallo-Schiff-base into Microporous Coordination Polymer R. Kitaura, G.Onoyama, H.Sakamoto, R.Matsuda, S. Noro and S. Kitagawa Angew.Chem.Int.Ed.2004,43,2684-2687. 7) A Contrivance for a Dynamic Porous Framework: Cooperative Guest Adsorption Based on Square Grids Connected by Amide-Amide Hydrogen Bonds K.Uemura, S.Kitagawa,K.Fukui, and K.Saito, J.Am.Chem.Soc. 2004, 126, 3817-3828. 8) Porous Coordination Polymer Crystals with Gated-Channels Specific for Supercritical Gases. R.Kitaura, K.Seki, G.Akiyama, and S. Kitagawa, Angew. Chem. Int. Ed., 2003, 43,428. Cover of the Issue 9) Formation of a one-dimensional array of oxygen in a microporous metal-organic solid, R.Kitaura, S.Kitagawa, Y.Kubota, T.Kobayashi, K.Kindo, Y.Mita, A.Matsuo, M.Kobayashi, H.-C.Chang, T.C.Ozawa,M.Suzuki, M.Sakata, and M.Takata, Science, 2002,298,2358. 10) Novel Pillared-Layer Coordination Polymer Network with Hysteretic Sorption: [Cu2(pzdc)2(dpyg)]n (pzdc = pyrazine-2,3-dicarboxylate; dpyg = 1,2-di(4- pyridyl)glycol). R. Kitaura, K.Fujimoto, S.Noro, M.Kondo, and S.Kitagawa, Angew.Chem.Int.Ed. 2002,41,133. 11) Framework Engineering by Anions and Porous Functionalities of Cu(II)/4,4'-bpy Coordination Polymers. S.Noro,R.Kitaura, M.Kondo, S.Kitagawa, T.Ishii, H.Matsuzaka, and M.Yamashita, J.Am.Chem.Soc.,2002,124,2568. 12) Design of Novel Inorganic-Organic Hybrid Materials Based on Iron-Chloranilate Mononuclear Complexes: Characteristics of Hydrogen-Bond-Supported Layers Toward the Intercalation of Guests K.Nagayoshi, Md. K.Kabir, H.Tobita, K. Honda, M. Kawahara, M. Katada, K. Adachi, H.Nishikawa, I. Ikemoto, H. Kumagai, .Hosokoshi, K. Inoue, S. Kitagawa, and .S. Kawata, J.Am.Chem.Soc. 2003,125,221. 13) Prussian Blue Nanoparticles Protected by Poly(vinylpyrrolidone) T.Uemura and S.Kitagawa, J.Am.Chem.Soc. 2003, 125, 7814. 14) New Methane Adsorbent of Porous Coordination Polymer, [Cu(SiF6)(4,4’- bipyridine)2]n. S.-i.Noro, S.Kitagawa, M.Kondo, and K.Seki, Angew.Chem,Int.Ed. 2000, 39,2081. 15) Novel 3-D Framework with channeling cavities for small molecules. {[M2(4,4'- bipyridine)3(NO3)4xH2O}n (M = Co, Ni, and Zn). M.Kondo, T.Yoshitomi, K.Seki, H.Matsuzaka, and S.Kitagawa, Angew.Chem.Int.Ed. 1997,36,1725. Invited Talk in International Conferences (2004-2005) 2005 1) 4th International Symposium of the Kyoto University COE (Center of Excellence) Project “Elements Science”, which will be held on January 6 and 7, 2005, at Kyoto University Clock Tower Centennial Hall. Functional Coordination Polymers as Novel Porous Materials 2)International conference of the Creative Scientific Research program on "Collaboratory on Electron Correlations -Toward a New Research Network between Physics and Chemistry-" March 11-15, 2005 Awaji Yumebutai Internation Conference Center, Hyogo, Japan “Porous Coordination Polymers. New Functionalities Based on Their Regularity and Flexibility” 3) Annual Meeting of Korean Chemical Society on April 22nd (Friday), Incheon, Korea “Chemistry of Coordination Space for New Porous Materials” 4)Chemistry Lecture, Univ. of Louis Pasteur, Strasbourg, May 19 Chemistry of Coordination Space for New Porous Materials 5)ANNUAL MEETING of American Chemical Association, MAY 28 - JUNE 2, 2005, Orland Florida, Symposium on Microporous Metal-Organic Framework Solids Flexible Structures and Porous Properties of Pillared Layer Coordination Polymers. 5)3rd International Conference on Materials for 9thInternational Conference on Advanced Technologies (ICMAT 2005) Advanced Materials (ICAM 2005) 3 - 8 July 2005, Singapore Organized by The Materials Research Society of Singapore SYMPOSIUM T: NOVEL POROUS MATERIALS FOR EMERGING APPLICATIONS Porous Coordination Polymers. New Functionalities Based on Their Regularity and Flexibility 6) The 17th International Conference on the Chemistry of the Organic Solid State (ICCOSS, XVII), July 24-29,UCLA Plenary Lecture Flexible Coordination Polymers as Novel Porous Materials 7)Chemistry Lecture, Tianjin University, China September 13, Chemistry of Coordination Space for New Porous Materials 8)BASF Seminar, Oct.13, Ludwigshafen, Germany Chemistry and Applications of Porous Coordination Polymers 9) The Euresco Conference "Supramolecular Chemistry: Molecular Architectures and Systems" held in Obernai (near Strasbourg) in October 2005 (14-19). a plenary lecture (40 minutes + 10 minutes of discussion) “Porous Coordination Polymers with Structural Regularity, Flexibility, and Functionality” 10) Chemistry Lecture, Univ. of Louis Pasteur, Strasbourg, October 20, Accomodation and Polymerization of Acetylene and its Derivatives in Porous Metal Complexes 11)JSPS Strasbourg, Public Lecture Oct.24, 2005 Chemistry and Application of Porous Metal Complexes 12)Pacifichem2005 Dec 16. Symposium on Chemistry and application of Metal organic Frameworks Chair of organizers, and invited talk Flexible Functional Coordination Polymers as Novel Porous Materials - Dec. 18, Symposium on Confinement of Molecules and Ions in Low Dimensional Nanospaces, invited talk. Formation and Observation of Specific Ordered Molecular Arrays in the 1-Dimensional Ultramicropore of the Porous Copper Coordination Polymer 2004 1)New Horizons in Chemistry, I; Molecular Building Blocks Approach to Functional Materials, Feb. 6-7,2004. South Florida University, Tampa, M.Zaworotko and M.Eddaoudi organizer Flexible Porous Frameworks of Coordination Polymers 2)1st Japan-Korea Joint Symposium on Chemistry of Transition Metal Compounds 19 - 21, February,2004 (Hakata Miyako Hotel) Functional Pillared-Layer Coordination Polymers. Hysteretic Sorption with guest selectivity 3) Japan-France Workshop on New Types of Functionality Materials Based on Organic–Inorganic Hybrid Compounds, April 24,2004 T.Enoki and L.Ouahab, 23 -25 April, 2004. Tokyo Dioxygen Nanowire-Formation Based on Porous Coordination Polymers 4) 5th Japan-China Joint Symposium on Metal Cluster Compounds, 23 -25 July,2004 Organaizing chair S.Kitagawa, Okazaki Coference Center New Microporous Materials - Coordination Polymers with Flexible Frameworks 5)Summer School Lecture, Beijin University, August 9,2004 Functional Coordination polymers 6) GordonResearch Conference, Organic Structures and Properties, 10 – 15 October, 2004. Les Diablerets, Switzerland Dioxygen Nanowire-Formation Based on Porous Coordination Polymers 7) 1st Japan and Singapore Joint Symposium on Nanoscience and Nanotechnology Lecture Theater, National University of Singapore Chair of Organizers, S.Kitagawa Nanochannel Laboratory Based on Porous Coordination Polymers 8) International Symposium on “Nano-structures and Physicochemical Properties of Polyoxometalate Superclusters and Related Colloid Particles” at Shonan Village Center, Kanagawa, Japan, on 21-25 November 2004, organized by T. Yamase, M. T. Pope, and A. Müller Flexible Coordination Polymers as Novel Porous Materials |
72楼2009-09-10 08:40:37
纳米镍粉
荣誉版主 (职业作家)
我是大好人
- 应助: 0 (幼儿园)
- 贵宾: 2.601
- 金币: 6440.2
- 散金: 230
- 红花: 20
- 沙发: 3
- 帖子: 3352
- 在线: 554.8小时
- 虫号: 94657
- 注册: 2005-09-26
- 性别: GG
- 专业: 极端条件下使用的金属材料
- 管辖: 生物材料
2楼2009-05-27 00:23:37
纳米镍粉
荣誉版主 (职业作家)
我是大好人
- 应助: 0 (幼儿园)
- 贵宾: 2.601
- 金币: 6440.2
- 散金: 230
- 红花: 20
- 沙发: 3
- 帖子: 3352
- 在线: 554.8小时
- 虫号: 94657
- 注册: 2005-09-26
- 性别: GG
- 专业: 极端条件下使用的金属材料
- 管辖: 生物材料
毛卫民
★ ★
waiy2001(金币+2,VIP+0):谢谢 7-16 12:25
waiy2001(金币+2,VIP+0):谢谢 7-16 12:25
|
北京科技大学材料系 教授、博士生导师 教育简历: 1977年,东北工学院,金属材料系,毕业 1981年,北京钢铁学院,材料科学与工程系,硕士毕业 1988年,德国亚琛工业大学, 金属学研究所,工学博士毕业 工作简历: 1981 - 今, 北京科技大学,教师 主要研究方向: 1)电解电容器铝箔的材料学原理及新产品开发; 2)电工钢材料学原理及新型电工钢品种的开发研究; 3)高强度钢材各向异性的开发与利用; 4)多晶体非金属材料晶体学各向异性的形成与利用; 5)高效轻质复合电磁屏蔽材料的开发研究; 近期发表的论文: 1. Mao W, Ren H, Yu Y, Precipition behavior of an Fe-1.03wt.% Cu alloy, Z. Metallkd., 2004, 95(1): 57-59. 2.Mao W, Yu Y, Effect of elastic reaction stress on plastic behaviors of grains in polycrystalline aggregate during tensile deformation, Materials Science & Engineering, 2004,367:277-281. 3.毛卫民, 任慧平, 余永宁, 结构钢中含铜析出相的时效强化作用, 材料热处理, 2004;25(2):1-4. 4. 毛卫民, 陈垒, 萨丽曼, 余永宁, 李云峰, 晶界对低压电解电容器铝箔腐蚀结构的影响, 中国有色金属学报, 2004;14(1):1-5. 5.毛卫民, 杨宏, 杨平, 冯惠平, 退火对高压电解电容器铝箔微量元素和腐蚀性能的影响, 金属热处理, 2004; 29(9): 3-6. 6.毛卫民, 高比电容低压阳极铝箔的表面微观组织, 世界科技研究与发展, 2004; 26(3): 16-21. 7. 毛卫民, 何业东, 国产电解电容器用极铝箔的发展与展望, 世界有色金属, 2004; (8): 23-27. 8.毛卫民, 陈冷, 杨平, 冯惠平, 退火铝板织构X 射线快速检测原理, 科学通报, 2004, 49 (20), 2128-2129. 9.毛卫民, 蒋恒, 杨平, 冯惠平, 余永宁, 微观结构和微量元素对铝箔腐蚀结构的影响, 中国有色金属学报, Vol. 14(10) 2004, 1627-1631. 10.Mao W, Jiang H, Yang P, Feng H, Yu Y, Distribution of microelements and their influence on the corrosion behavior of Aluminum foil, J. Material Science and Technology, vol. 21 (1), 2005, 43-46. 11.毛卫民, 方鲲, 吴其晔, 冯惠平, 导电聚苯胺/羰基铁粉复合吸波材料, 复合材料学报, 2005, Vol. 22(1), 11-14 12.Mao W, Chen L, Yang P, Yu Y, Reaction Stresses among the Grains during Tensile Deformation of Polycrystalline Metals, Solid State Phenomena, Vol. 105 (2005) pp. 95-100. 13.Mao W, Yu Y, Reaction Stress Model and Relaxation of Reaction Stress among the Grains during Tensile Deformation of FCC metals, Materials Science Forum, 2005, Vol. 495-497, p. 995-1000. 14. 毛卫民, 朱宏喜, 陈冷, 冯惠平, 吕反修, CVD自支撑金刚石薄膜的宏观织构与微观孪晶, 无机材料学报, 2006, 21(1), 239-244. 15.毛卫民, 马全仓, 冯惠平, 陈昌云, 李吉彬, 冲压铝板塑性应变比的在线检测技术, 中国有色金属学报, 2006, 16(7), 1149-1154. 16.毛卫民, 冲压钢板塑性应变比r值的在线检测技术, 钢铁, 2006, 41(11), 37-41. 17.毛卫民, 杨平, 经济型取向电工钢的定位与发展, 世界科技研究与发展, 2006, 28(6): 23-26. 18.Mao W, Li D, Yu Y, Influence of surface oxide films on elastic behaviors of straight screw dislocations parallel to the surface of pure aluminum, J. Material Science and Technology, vol. 23(3), 2007, 392-394. [ Last edited by 纳米镍粉 on 2009-5-27 at 06:36 ] |
3楼2009-05-27 06:34:25
cjhzse
木虫 (正式写手)
- 应助: 4 (幼儿园)
- 金币: 4207.2
- 散金: 1018
- 红花: 3
- 帖子: 777
- 在线: 425.6小时
- 虫号: 102451
- 注册: 2005-11-13
- 专业: 无机材料化学
★ ★ ★ ★
小木虫(金币+0.5):给个红包,谢谢回帖交流
纳米镍粉(金币+3,VIP+0):谢谢 5-27 20:13
小木虫(金币+0.5):给个红包,谢谢回帖交流
纳米镍粉(金币+3,VIP+0):谢谢 5-27 20:13
|
姓名: 陈小明 单位:中山大学化学与化学工程学院 领域:晶体工程 业绩(论文,专著等等) 1) Optimized acetylene/carbon dioxide sorption in a dynamic porous crystal Zhang, J.-P.; Chen, X.-M., J. Am. Chem. Soc. 2008, ja-2008-089872. 2) Two metal-carboxylate frameworks featuring uncommon 2D + 3D and 3-fold-interpenetration: (3,5)-connected isomeric hms and gra nets Hou, L.; Zhang, J.-P.; Chen, X.-M., Cryst. Growth Des. 2009, cg-2008-01308u. 3) Isomeric zinc(II) triazolate frameworks with 3-connected networks: syntheses, structures, and sorption properties Zhu, A.-X.; Lin, J.-B.; Zhang, J.-P.; Chen, X.-M., Inorg. Chem. 2009, ic-2008-02446m. 4) A spin-frustrated complex, [FeIIFeIII(trans-1,4-cyclohexanedicarboxylate)1.5]∞: Interplay between single-chain magnet behavior and magnetic ordering Zheng, Y.-Z.; Xue, W.; Zhang, W.-X.; Tong, M.-L.; Chen, X.-M., Grandjean, F.; Long, G. J.; Ng, S. W.; Panissod, P.; Drillon M., Inorg. Chem. 2009, 48, 2028–2042. 5) Syntheses, structures and magnetic properties of a family of metal carboxylate polymers via in-situ metal/ligand reactions of benzene-1,2,3-tricarboxylic acid Zheng, Y.-Z.; Zhang, Y.-B.; Tong, M.-L.; Xue, W.; Chen, X.-M., Dalton Trans. 2009, 1396-1406. 6) Syntheses, structures and sorption properties of two framework-isomeric porous copper-coordination polymers Xue, D.-X.; Lin, J.-B.; Zhang, J.-P.; Chen, X.-M., CrystEngComm 2009, 11, 183-188.. (2008) 7) Probing single-chain magnets in a family of linear chain compounds constructed by magnetically anisotropic metal-ions and cyclohexane-1,2-dicarboxylate analogues Zheng, Y.-Z.; Xue, W.; Tong, M.-L.; Chen, X.-M., Zheng, S.-L. Inorg. Chem. 2008, 47, 11202–11211. 8) Microwave-assisted solvothermal synthesis of a dynamic nanoporous metal-carboxylate framework Wang, X.-F.; Zhang, Y.-B.; Huang, H.; Zhang, J.-P.; Chen, X.-M.; Cryst. Growth Des. 2008, 8, 4559-4563. 9) Pillaring Zn-triazolate layers with flexible aliphatic dicarboxylates into three-dimensional metal-organic frameworks Lin, Y.-Y.; Zhang, Y.-B.; Zhang, J.-P.; Chen, X.-M.; Cryst. Growth Des. 2008, 8, 3673–3679. 10) (Hot Paper) Assembly of 3D geometrically frustrated magnets with tranistion metal ion and 1,2,3-triazole-4,5-dicarboxylate as triangular nodes Zhang, W.-X.; Xue, W.; Lin, J.-B.; Zheng, Y.-Z.; Chen, X.-M., CrystEngComm 2008, 10, 1770-1776. 11) Two highly-connected, chiral, porous coordination polymers featuring novel heptanuclear metal carboxylate clusters Hou, L.; Zhang, J.-P.; Chen, X.-M., Ng, S.W. Chem. Commun. 2008, 4019–4021. 12) Weak ferromagnetism and dynamic magnetic behaviors of two 2D compounds with hydroxy/carboxylate-bridged Co(II) chains Cheng, X.-N.; Xue, W.; Zhang, W.-X.; Chen, X.-M., Chem. Mater. 2008, 20, 5345–5350. 13) Pentanuclear and heptanuclear metal helicates by self-assembly of d10 metal ions and a rigid aromatic bis-bidentate chelator Zhu, A.-X.; Zhang, J.-P.; Lin, Y.-Y.; Chen, X.-M., Inorg. Chem. 2008, 47, 7389-7395.. 14) Two microporous metal-organic frameworks with different topologies constructed from linear trinuclear M3(COO)n secondary building units Wang, X.-F.; Zhang, Y.-B.; Cheng, X.-N.; Chen, X.-M., CrystEngComm 2008, 10, 753–758. 15) A two-dimensional iron(II) carboxylate linear chain polymer that exhibits a metamagnetic spin-canted antiferromagnetic to single-chain magnetic transition Zheng, Y.-Z.; Xue, W.; Tong, M.-L.; Zhang, W.-X.; Chen, X.-M.; Grandjean, F.; Long, G.J., Inorg. Chem. 2008, 47, 4077-4087. 16) Exceptional framework flexibility and sorption behavior of a multifunctional porous cuprous triazolate framework Zhang, J.-P.; Chen, X.-M., J. Am. Chem. Soc. 2008, 130, 6010–6017. 17) Néel temperature enhanced by increasing the in-plane magnetic correlation in layered inorganic-organic hybrid materials Zheng, Y.-Z.; Xue, W.; Zheng, S.-L.; Tong, M.-L.; Chen, X.-M., Adv. Mater. 2008, 20, 1534–1538. 18) Single-crystal-to-single-crystal transformation involving release of bridging water molecules and transform of chain helicity in a chiral three-dimensional metal-organic framework Xue, D.-X.; Zhang, W.-X.; Chen, X.-M.; Wang, H.-Z., Chem. Commun. 2008, 1551-1553. 19) Porous metal-organic framework based on μ4-oxo tetrazinc clusters: sorption and guest-dependent luminescent properties Hou, L.; Lin, Y.-Y.; Chen, X.-M., Inorg. Chem. 2008, 47, 1346-1351. (2007) 20) Single-crystal-to-single-crystal transformation from ferromagnetic discrete molecules to a spin-canting antiferromagnetic layer Cheng, X.-N.; Zhang, W.-X.; Chen, X.-M., J. Am. Chem. Soc. 2007, 129, 15738-15739. 21) Rational construction and hydrogen storage behavior of a dynamic microporous metal-organic framework with BCT zeolite topology Hu, S.; Zhang, J.-P.; Tong, M.-L.; Chen, X.-M.; Kitagawa, S. Cryst. Growth Des. 2007, 7, 2286-2289. 22) A “star” antiferromagnet: A polymeric iron(III) acetate exhibiting the coexistence of spin-frustration and long-range magnetic order Zheng, Y.-Z.; Tong, M.-L.; Xue, W.; Zhang, W.-X.; Chen, X.-M.; Grandjean, F.; Long, G. J., Angew. Chem. Int. Ed. 2007, 46, 6076-6080. (Highlighted in Nature China) 23) From pseudo to true C3-symmetry: Magnetic anisotropy enhanced by site-specific ligand substitution in two Mn15-carboxylate clusters Zheng, Y.-Z.; Zhang, W.-X.; Xue, W.; Tong, M.-L.; Chen, X.-M., Inorg. Chem. 2007, 46, 6437-6443. 24) A tetracarboxylate–bridged dicopper(II) paddle-wheel-based 2-D porous coordination polymer with gas sorption properties Xue, D.-X; Lin, Y.-Y.; Cheng, X.-N.; Chen, X.-M., Cryst. Growth Des. 2007, 7, 1332-1336. 25) Unprecedented (3,9)-connected (42.6)3(46.621.89) net constructed by trinclear mixed-valence cobalt clusters Zhang, X.-M.; Zheng, Y.-Z.; Li, C.-R.; Zhang, W.-X.; Chen, X.-M., Cryst. Growth Des. 2007, 7, 980–983. 26) A dynamic porous magnet exhibiting reversible guest-induced magnetic behavior modulation Cheng, X.-N.; Zhang, W.-X.; Lin, Y.-Y.; Zheng, Y.-Z.; Chen, X.-M., Adv. Mater. 2007, 19, 1494–1498. 27) Solvothermal in-situ metal/ligand reactions: A new bridge between coordination chemistry and organic synthetic chemistry Chen, X.-M.; Tong, M.-L., Acc. Chem. Res. 2007, 40, 162-170. 28) In situ solvothermal generation of 1,2,4-triazolates and related compounds from organonitriles and hydrazine hydrate: A mechanism study Cheng, L.; Zhang, W.-X.; Ye, B.-H.; Lin, J.-B.; Chen, X.-M., Inorg. Chem. 2007, 46, 1135-1143. (2006) 29) Encapsulation of water cluster, meso-helical chain and tapes in metal-organic frameworks based on double-stranded Cd(II) helicates and carboxylates Cheng, L.; Lin, J.-B.; Gong, J.-Z.; Sun, A.-P.; Ye, B.-H.; Chen, X.-M., Cryst. Growth Des. 2006, 6, 2739-2746. 30) A robust microporous 3D cobalt(II) coordination polymer with new magnetically frustrated 2D lattices: single-crystal transformation and guest modulation of cooperative magnetic properties Zeng, M.-H.; Feng, X.-L.; Zhang, W.-X.; Chen, X.-M., Dalton Trans. 2006, 5294-5303. 31) Chiral magnetic metal-organic frameworks of dimetal sub-units: Magnetism tuning by mixed-metal compositions of the solid solutions Zeng, M.-H.; Wang, B.; Wang, X.-Y.; Zhang, W.-X.; Chen, X.-M., Gao, S. Inorg. Chem. 2006, 45, 7069-7076. 32) Assembling “magnetic nanowires” into network: A layered Co(II)-carboxylate coordination polymer exhibiting single-chain-magnet behavior Zheng, Y.-Z.; Tong, M.-L.; Zhang, W.-X.; Chen, X.-M., Angew. Chem. Int. Ed. 2006, 45, 6310-6314. 33) The slow magnetic relaxation observed in a mixed carboxylate/hydroxide-bridged compound [Co2Na(4-cpa)2(m3-OH)(H2O)]¥ featuring spin-frustrated magnetic D-chains Cheng, X.-N.; Zhang, W.-X.; Zheng, Y.-Z.; Chen, X.-M., Chem. Commun. 2006, 3603-3605. 34) Syntheses, structures and photoluminescence of three coordination polymers of cadmium dicarboxylates Zhang, L.-Y.; Zhang, J.-P.; Lin, Y.-Y.; Chen, X.-M., Cryst. Growth Des. 2006, 6, 1684-1689. 35) Solvent-induced supramolecular isomerism in silver(I) 2-methylimidazolate Huang, X.-C.; Li, D.; Chen, X.-M., CrystEngComm 2006, 8, 351-355. 36) One-dimensional supramolecular isomerism of copper(I) and silver(I) imidazolates based on the ligand orientations Huang, X.-C.; Zhang, J.-P.; Chen, X.-M., Cryst. Growth Des. 2006, 6, 1194-1198. 37) (Feature Article) Crystal engineering of binary metal imidazolate and triazolate frameworks Zhang, J.-P.; Chen, X.-M., Chem. Commun. 2006, 1689-1699. 38) Ligand-directed strategy for zeolite-type metal-organic frameworks: Zinc(II) imidazolates with unusual zeolitic topologies Huang, X.-C.; Lin, Y.-Y.; Zhang, J.-P.; Chen, X.-M., Angew. Chem. Int. Ed. 2006, 45, 1557-1559. 39) From one- to three-dimensional architectures: Supramolecular isomerism of copper(I) 3,5-di(4-pyridyl)-1,2,4-triazolate involving in situ ligand synthesis Zhang, J.-P.; Lin, Y.-Y.; Huang, X.-C.; Chen, X.-M., Cryst. Growth Des. 2006, 6, 519–523. 40) Coexistence of spin frustration and long-range magnetic ordering in a triangular CoII3(m3-OH)-based two-dimensional compound Zheng, Y.-Z.; Tong, M.-L.; Zhang, W.-X.; Chen, X.-M., Chem. Commun. 2006, 165–167. (2005) 41) Synthesis, structures, magnetic properties of heteronuclear Cu(II)-Ln(III) (Ln = La, Gd or Tb) complexes He, F.; Tong, M.-L.; and Chen, X.-M., Inorg. Chem. 2005, 44, 8285-8292. 42) Supramolecular isomerism within three-dimensional 3-connnected nets: Unusual synthesis and characterization of trimorphic copper(I) 3,5-dimethyl-1,2,4-triazolate Zhang, J.-P.; Lin, Y.-Y.; Huang, X.-C.; Chen, X.-M., Dalton Trans. 2005, 3681-3685. 43) Temperature- or guest-induced drastic single-crystal-to-single-crystal transformations of a nanoporous coordination polymer Zhang, J.-P.; Lin, Y.-Y.; Zhang, W.-X.; Chen, X.-M., J. Am. Chem. Soc. 2005, 127, 14162-14163. 44) Infinite water chains trapped in organic framework constructed from melamine with 1,5-naphthalenedisulfonic acid via hydrogen bonds Zhang, X.-L.; Ye, B.-H.; Chen, X.-M., Cryst. Growth Des. 2005, 5, 1609-1616. 45) Syntheses, structures, photoluminescence and theoretical studies of a class of Be(II) compounds of aromatic N,O-chelate ligands Tong, Y.-P.; Zheng, S.-L.; Chen, X.-M., Inorg. Chem. 2005, 44, 4270-4275. 46) A solvothermally in-situ generated mixed-ligand approach for NLO-active metal–organic framework materials Wang, Y.-T.; Fan, H.-H.; Wang, H.-Z.; Chen, X.-M., Inorg. Chem. 2005, 44, 4148-4149. 47) Spin-canting and metamagnetism observed in a unique 3D homometallic molecular material constructed by interpenetration of two kinds of cobalt(II) coordination polymer sheets Zeng, M.-H.; Zhang, W.-X.; Sun, X.-Z.; Chen, X.-M., Angew. Chem. Int. Ed. 2005, 44, 3079-3082. 48) Well-resolved, new water morphologies obtained by modification of the hydrophilic/hydrophobic characters and shapes of the supporting surfaces Zhang, J.-P.; Huang, X.-C.; Lin, Y.-Y.; Chen, X.-M., Inorg. Chem. 2005, 44, 3146-3150. 49) Luminescent zigzag chains and triple-stranded helices of copper(I) 2-ethylimidazolate: Solvent polarity-induced supramolecular isomerism Huang, X.-C.; Zhang, J.-P.; Lin, Y.-Y.; Chen, X.-M., Chem. Commun. 2005, 2232–2234. 50) Copper(I) 1,2,4-triazolates and related complexes: Studies of the olvothermal ligand reactions, network topologies, and photoluminescence roperties Zhang, J.-P.; Lin, Y.-Y.; Huang, X.-C.; Chen, X.-M., J. Am. Chem. Soc. 2005, 127, 5495-5506. 51) Effect of the size of aromatic chelate ligands on the frameworks of metal dicarboxylate polymers: from helical chains to 2-D networks Han, Z.-B.; Cheng, X.-N.; Chen, X.-M., Cryst. Growth Des. 2005, 5, 695–700. 52) Supramolecular architectures and helical water chains in cocrystals of melamine and aromatic carboxylic acids Zhang, X.-L.; Chen, X.-M., Cryst. Growth Des. 2005, 5, 617-622. 53) Molecular chairs, zippers, zigzag and helical chains: chemical enumeration of supramolecular isomerism based on a predesigned metal-organic building-block Zhang, J.-P.; Lin, Y.-Y.; Huang, X.-C.; Chen, X.-M., Chem. Commun. 2005, 1258–1260. (Hot Paper) 54) (Review Article) Metal-organic molecular architectures with 2,2’-bipyridyl-like and carboxylate ligands Ye, B.-H.; Tong, M.-L.; Chen, X.-M., Coord. Chem. Rev. 2005, 249, 545–565. 55) Controlled assembly of nanoscale heterometallic Cu12Ln6 Clusters (Ln = GdIII or NdIII) into 2D coordination polymers He, F.; Tong, M.-L.; Yu, X.-L.; Chen, X.-M., Inorg. Chem. 2005, 44, 559-565. 56) Homochiral crystallization of helical coordination chains bridged by achiral ligands: can it be controlled by the ligand structure? Wang, Y.-T.; Tong, M.-L., Fan, H.-H.; Wang, H.-Z.; Chen, X.-M., Dalton Trans. 2005, 424-426. (Hot Paper, Highlighted in Chemical Science) 57) Metallophilicity versus p-p interactions: Ligand-unsupported rgentophilicity/cuprophilicity in oligomers-of-dimers [M2L2]n (M = CuI or AgI, L = tridentate ligand) Zhang, J.-P.; Wang, Y.-B.; Huang, X.-C.; Lin, Y.-Y.; Chen, X.-M., Chem. Eur. J. 2005, 11, 552-561. http://ce.sysu.edu.cn/cxm/ [ Last edited by 纳米镍粉 on 2009-6-5 at 18:59 ] |
4楼2009-05-27 07:07:21