Synthesis and characterization of bridged and chelated diphosphine coordinated transition metal chalcogenide clusters, [(CO)18Fe6(μ3-Te)4{μ-PPh2(CH2)2PPh2}] and [(CO)nFe2(μ3-Y)2M{PPh2-R-PPh2}], [Y = Se, Te; M = Pd, Fe; n = 6, 8; R = {(η5-C5H4)2Fe}, {(CH2)2}]
暂无分享,去创建一个
[1] Haibin Song,et al. Synthetic and Structural Characterization of Linear and Macrocyclic Ni/Fe/E (E = S, Se) Cluster Complexes , 2011 .
[2] Suman K. Patel,et al. Synthesis and characterization of diphosphine bridged homo and heterometallic clusters containing chalcogen as “naked” atoms , 2011 .
[3] D. O′Hare,et al. Electronic communication through unsaturated hydrocarbon bridges in homobimetallic organometallic complexes. , 2010, Chemical reviews.
[4] Coco K. Y. A. Okio,et al. Di- and trinuclear phosphido-bridged platinum complexes. Crystal structures of [Pt{CH(2)=CHC(O)OMe}(PPh(3))(2)], trans-[Pt(2)(micro-PPh(2))(2)I(2)(PPh(3))(2)] and cis,cis,cis-[Pt(3)(mu-I)(2)(mu-PPh(2))(2)Cl(0.5)I(1.5)(PPh(3))(2)]. , 2009, Dalton transactions.
[5] A. Das,et al. Coupling reaction between the uncoordinated acetylenic bond of [Ru3(CO)10{μ3-FcC2CCFc}] and FcCCCCFc to form [Ru2(CO)6{C4Fc2(CCFc)2}2], [Ru2(CO)6[μ-η1:η1:η2:η2-{FcCCCC(Fc)–C(O)–C(Fc)CCCFc}] and [Ru2(CO)6[μ-η1:η1: η2:η2-{FcCCCC(Fc)–C(O)–C(–CCFc)C(Fc)}] , 2008 .
[6] R. D. Adams,et al. Cleavage of tert-Butyl Groups from the Tri-tert-butylphosphine Ligand in Osmium−Platinum Carbonyl Cluster Complexes , 2008 .
[7] G. Sheldrick. A short history of SHELX. , 2008, Acta crystallographica. Section A, Foundations of crystallography.
[8] P. Mathur,et al. Manganese Containing Heterometallic Clusters Containing Ligands Derived from Elements of Groups 15 and 16 , 2007 .
[9] A. Das,et al. Synthesis, structure and electrochemistry of CO incorporated diruthenium metallacyclic compounds [Ru2(CO)6{μ-η1:η1:η2:η2-1,4-Fc2C5H2O}] and [Ru2(CO)6{μ-η1:η1:η2:η2-1,5-Fc2C5H2O}] , 2007 .
[10] A. Das,et al. Photochemical route to unusual tri-tungsten ferrocenylacetylene cluster [W3{μ-η2,η2- (H)CCFc}2(CO)12] and a dimetallacyclodecatetraene [W2{μ-η2,η2,η2,η2- (Fc)CC(H)C(H)C(Fc)C(Fc)C(H)C(H)C(Fc)}(CO)6] , 2007 .
[11] L. Weng,et al. Studies on the synthesis of novel 2,2′-bis(ferrocenyl)propane derivatives and their reactivity with metal carbonyl clusters , 2006 .
[12] R. D. Adams,et al. Bimetallic clusters of iron with palladium and platinum. Synthesis and structures of Fe2(CO)9[M(PBu(t)3)]2 (M = Pd or Pt) and Fe2(CO)8[Pt(PBu(t)3)]2(mu-H)2. , 2006, Inorganic Chemistry.
[13] M. Wagner. A new dimension in multinuclear metallocene complexes. , 2006, Angewandte Chemie.
[14] S. Bott,et al. Regiospecific and sequential P–C bond activation/cluster transformations in the reaction of PhCCo2MoCp(CO)8 with the diphosphine ligands 2,3-bis(diphenylphosphino)maleic anhydride (bma) and 3,4-bis(diphenylphosphino)-5-methoxy-2(5H)-furanone (bmf) , 2006 .
[15] Yinglin Song,et al. Studies on cage-type tetranuclear metal clusters with ferrocenylphosphonate ligands. , 2006, Chemistry.
[16] H. Nishihara,et al. Visible-light photochromism of bis(ferrocenylethynyl)ethenes switches electronic communication between ferrocene sites. , 2006, Angewandte Chemie.
[17] Robert Raja,et al. Single-site heterogeneous catalysts. , 2005, Angewandte Chemie.
[18] Rajiv Trivedi,et al. Second Molecular Hyperpolarizability of Mixed Transition Metal, Non-Metal Clusters , 2004 .
[19] Yukihiro Motoyama,et al. Silane-induced polymerization of vinyl ethers catalyzed by a triruthenium carbonyl cluster, (μ3,η2,η3, η5-acenaphthylene)Ru3(CO)7 , 2004 .
[20] J. Wachter. Metal Telluride Clusters — From Small Molecules to Polyhedral Structures , 2004 .
[21] T. Izumi,et al. Synthesis and electrochemical studies of ferrocene-dithiafulvalenes (Fc-DTF) and 1,1′-bis(dithiafulvalenyl)ferrocene (DTF-Fc-DTF). An approach towards new conducting organic materials , 2003 .
[22] R. Welter,et al. An unusual dynamic Fe-Hg-Pd cluster with a palladium(0) fragment stabilized by d10-d10 heterometallic bonding. , 2003, Angewandte Chemie.
[23] C. Graiff,et al. Phosphane-Substituted Selenido−(carbonyl)iron and −(carbonyl)ruthenium Clusters: Structures, Fluxionality and Reactivity , 2003 .
[24] M. Brandl,et al. Synthesis, reactivity and structures of ruthenium carbonyl clusters with telluride and hydride ligands , 2002 .
[25] R. D. Adams,et al. Syntheses, Structures, Bonding, and Redox Behavior of 1,4-Bis(ferrocenyl)butadiyne Coordinated Osmium Clusters , 2002 .
[26] B. Skelton,et al. Ruthenium cluster carbonyls containing ligands derived from ferrocenylalkynes , 2002 .
[27] Vincent Otieno-Alego,et al. Mixed-metal cluster chemistry. 19. Crystallographic, spectroscopic, electrochemical, spectroelectrochemical, and theoretical studies of systematically varied tetrahedral group 6-iridium clusters. , 2002, Journal of the American Chemical Society.
[28] C. Graiff,et al. A re-examination of the reaction between 1,1′-bis(diphenylphosphino)ferrocene (dppf) diselenide and [Ru3(CO)12]. Electrochemical behaviour of the isomeric nido-clusters [Ru3(μ3-Se)2(dppf)(CO)7] and [Ru3(μ3-Se)2(μ-dppf)(CO)7] and crystal structure of [Ru3Se{μ-P(Ph)C5H4FeC5H4PPh2}(μ-OCPh)(CO)6] , 2001 .
[29] R. D. Adams,et al. New route to dehydroannulenes by coupling linear polyynes using ruthenium carbonyl. , 2001, Inorganic chemistry.
[30] Rajiv Trivedi,et al. Novel Approach to Mixed Group 15/16 Element Ligands-Formation of Unusual Trichalcogenophosphonato Ligands in Mixed Fe/Cr Clusters. , 2001, Angewandte Chemie.
[31] Brian F. G. Johnson,et al. Z-Contrast tomography: a technique inthree-dimensional nanostructural analysis based on Rutherfordscattering , 2001 .
[32] Bruce C. Gates,et al. Supported Metal Cluster Catalysts , 2000 .
[33] M. O. Wolf,et al. Charge Transfer and Delocalization in Conjugated (Ferrocenylethynyl)oligothiophene Complexes , 2000 .
[34] C. Krebs,et al. IscU as a scaffold for iron-sulfur cluster biosynthesis: sequential assembly of [2Fe-2S] and [4Fe-4S] clusters in IscU. , 2000, Biochemistry.
[35] J. Agar. Role of the IscU protein in iron-sulfur cluster biosynthesis. IscS-mediated assembly of a [Fe_2S_2] cluster in IscU , 2000 .
[36] M. Shieh. Recent Developments of Tellurium- and Selenium-Containing Iron Carbonyl Clusters , 1999 .
[37] C. Massera,et al. Chelating versus bridging behaviour and NMR fluxionality of dppf in the nido clusters [M3Se2(CO)7(dppf)] [M = Fe or Ru, dppf = Fe(η5-C5H4PPh2)2]. Crystal structure of the chelated ruthenium derivative† , 1999 .
[38] B. Johnson. From clusters to nanoparticles and catalysis , 1999 .
[39] T. Hor,et al. Clusters and Aggregates of 1,1′-Bis(diphenylphosphino)ferrocene (dppf) , 1998 .
[40] D. Astruc,et al. The Use of the Electron-Reservoir Complexes [Fe(I)Cp(arene)] for the Electrocatalytic Synthesis of Redox-Reversible Metal-Carbonyl Clusters Containing Ferrocenyldiphenylphosphine , 1998 .
[41] F. Cotton,et al. Catalysis by di- and polynuclear metal cluster complexes , 1998 .
[42] D. Astruc. FROM ORGANOTRANSITION-METAL CHEMISTRY TOWARD MOLECULAR ELECTRONICS : ELECTRONIC COMMUNICATION BETWEEN LIGAND-BRIDGED METALS , 1997 .
[43] C. Graiff,et al. Synthesis of diphosphine-substituted selenido carbonyl iron clusters: Progressive deformation of the Fe3Se2 core in the nido clusters [Fe3Se2(CO)7μ-(Ph2P)2R] by widening the bite of the bridging ligand , 1997 .
[44] A. Peregudov,et al. Synthesis of the Tetranuclear Clusters RuM3H(C⋮CFc)(CO)12 (M = Ru, Os; Fc = Ferrocenyl), Containing a Fluxional μ4-Acetylide Ligand. Structure of a Mixed Crystal Containing Tetranuclear (Ru4H(C⋮CFc)(CO)12) and Trinuclear (Ru3H(C⋮CFc)(CO)9) Ruthenium Complexes , 1997 .
[45] U. Schubert,et al. Palladium-induced rearrangement of a Fe2Sn2 metal core leading to the first Fe–Pd–Sn cluster [(OC)3Fe(µ-SnBun2)(µ-dppm)Pd(µ-dppm)Fe(CO)3]† , 1997 .
[46] G. Enright,et al. Synthesis of Fe4(CO)8(µ-PPh2)2(µ4-η1,η1,η2,η2-C2Ph)2via coupling of acetylides at a binuclear centre: a molecule with through-the-cluster carbon–carbon bonding? , 1997 .
[47] P. Mathur,et al. Non-linear optical properties of the inorganic cluster[(η-C5H5)CoFe2SSe(CO)6] , 1997 .
[48] D. Nocera,et al. Efficient Singlet Oxygen Generation from Polymers Derivatized with Hexanuclear Molybdenum Clusters , 1996 .
[49] Jianliang Xiao,et al. Pt-Re clusters and bimetallic catalysts , 1995 .
[50] Steven A. Williams,et al. The heteronuclear cluster chemistry of the group IB metals—18. Synthesis, structural characterization and dynamic behaviour of the bimetallic hexanuclear group IB metal cluster compounds [M2Ru4H2(μ-dppf)(CO)12] [M = Cu, Ag or Au; dppf = Fe(η5-C5H5PPh2)2]. X-ray crystal structure of [Cu2Ru4(μ3-H)2(μ- , 1995 .
[51] P. Mathur,et al. SELENIUM-BRIDGED CLUSTERS - SYNTHESIS AND CHARACTERIZATION OF SELENIUM-BRIDGED FE-MO CLUSTERS CP2MO2FE2SE3(CO)6, CP2MO2FE2SE2(CO)7, AND CP2MO2FESE(CO)7 , 1994 .
[52] Y. Naruta,et al. Oxygen Evolution by Oxidation of Water with Manganese Porphyrin Dimers , 1994 .
[53] S. Ng,et al. Substituted metal carbonyls. Part 25: Unidentate, intramolecular, and intermolecular bridging modes of 1,1′-bis(diphenylphosphino)ferrocene inM3S2(CO)9 (M = Fe, Ru) cluster derivatives , 1994 .
[54] J. Kolis,et al. New developments in the coordination chemistry of inorganic selenide and telluride ligands , 1993 .
[55] Avelino Martín,et al. Synthesis and characterisation of novel selenium-containing clusters; crystal structures of [Ru4(μ4-Se)2(CO)8(μ-CO)3] and [Ru3(μ3-Se)2(CO)7(Ph2P(CH2)3PPh2)] , 1992 .
[56] N. Kosugi,et al. Bimetallic promotion of alcohol production in CO hydrogenation and olefin hydroformylation on RhFe, PtFe, PdFe, and IrFe cluster-derived catalysts , 1990 .
[57] A. A. Koridze. Reactions of ruthenium and osmium cluster carbonyls with heteroatom-substituted and functionalized alkynes , 1990 .
[58] P. Mathur,et al. The contrasting roles of the various chalcogens in the synthesis of mixed metal complexes (CO)6Fe2(μ3-E)2M(PPh3)2 (E = Te, Se, S; M = Ni, Pd, Pt)) , 1989 .
[59] P. Mathur,et al. A new route to Fe2Te2M(CO)6(PPh3)2 (M = Ni, Pd, Pt) from Fe3Te2(CO)9 and M(PPh3)4 , 1988 .
[60] T. Rauchfuss,et al. Reactivity of Fe3(.mu.3-Te)2(CO)9 toward Lewis bases. 1 , 1982 .
[61] T. Rauchfuss,et al. Isolation and characterization of Fe2(.mu.-Te2)(CO)6 and its conversion to Fe3(.mu.3-Te)2(CO)x (x = 9, 10) , 1981 .
[62] W. Hieber,et al. Zur Kenntnis der Eisencarbonylchalkogenide , 1958 .