Comprehensive Organometallic Chemistry II - A Review of the Literature 1982-1994 in 14 Vol. Set
معرفی کتاب «Comprehensive Organometallic Chemistry II - A Review of the Literature 1982-1994 in 14 Vol. Set» نوشتهٔ Wilkinson Geoffrey; F. Gordon A. Stone, Edward W. Abel، منتشرشده توسط نشر Pergamon در سال 1995. این کتاب در فرمت pdf، زبان انگلیسی ارائه شده است.
Wilkinson Geoffrey. Comprehensive Organometallic Chemistry II - A Review of the Literature 1982-1994 in 14 Vol.Set 1995 [pdf 8291sc 8291c. 1.71gb]‘Comprehensive Organometallic Chemistry’, published in 1982, was well received and remains very highly cited in the primary journal literature. Since its publication, studies on the chemistry of molecules with carbon-metal bonds have continued to expand rapidly. This is due to many factors, ranging from the sheer intellectual challenge and excitement provided by the continuing production of novel results, which demand new ideas, through to the successful application of organometallic species in organic syntheses, the generation of living catalysts for polymerization, and the synthesis of precursors for materials employed in the electronic and ceramic industries. For many reasons, therefore, we judged it timely to update ‘Comprehensive Organometallic Chemistry’ with a new work.Due to the scope and depth of this area of chemistry, to have merely revised each of the original nine volumes did not seem the most user-friendly or cost-effective procedure to follow. As a consequence of the sheer bulk of the literature of the subject, a revised edition would necessarily require either the elimination of much chemistry of archival value but which is still important, or the production of a set of volumes significantly larger in number than the original nine. Accordingly, we decided it would be best to use the original work as a basis for new volumes focusing on organometallic chemistry reported since 1982, with reference back to the original work when necessary. For ease of use the new volumes maintain the same general structure as employed previously but reflect the changes in substance and direction the field has undergone in the last ten years. Thus it is not surprising that the largest volume in the new work concerns the role of the transition elements in metal-mediated organic syntheses. Content: 1 - Alkali Metals, Pages 1-34, Michael A. Beswick, Dominic S. Wright 2 - Beryllium, Pages 35-55, Norman A. Bell 3 - Magnesium, Calcium, Strontium and Barium, Pages 57-127, W. Edward Lindsell 4 - Compounds with Three- or Four-coordinate Boron, Emphasizing Cyclic Systems, Pages 129-195, Catherine E. Housecroft 5 - Boron Rings Ligated to Metals, Pages 197-216, Gerhard E. Herberich 6 - Polyhedral Carbaboranes, Pages 217-255, T. Onak 7 - Main-group Heteroboranes, Pages 257-273, Lee J. Todd 8 - Metallaboranes, Pages 275-372, Lawrence Barton, Dileep K. Srivastava 9 - Transition Metal Metallacarbaboranes, Pages 373-430, Russell N. Grimes 10 - Aluminum, Pages 431-502, John J. Eisch 11 - Gallium, Indium and Thallium, Excluding Transition Metal Derivatives, Pages 503-544, Michael A. Paver, Christopher A. Russell, Dominic S. Wright 12 - Transition Metal Complexes of Aluminum, Gallium, Indium and Thallium, Pages 545-571, Claire J. Carmalt, Nicholas C. Norman, Lucy M. Clarkson 1 - Organosilanes, Pages 1-44, D.A. Armitage 2 - Carbacyclic Silanes, Pages 45-75, Bernard J. Aylett, Alice C. Sullivan 3 - Organopolysilanes, Pages 77-110, Robert West 4 - Silicones, Pages 111-135, Scott S. Brown, Tom C. Kendrick, Jim McVie, Dave R. Thomas 5 - Germanium, Pages 137-216, Pierre Riviere, Monique Riviere-Baudet, Jacques Satge 6 - Tin, Pages 217-303, Alwyn G. Davies 7 - Lead, Pages 305-319, Philip G. Harrison 8 - Arsenic, Antimony and Bismuth, Pages 321-347, James L. Wardell 1 - Gold, Pages 1-56, Andreas Grohmann, Hubert Schmidbaur 2 - Copper and Silver, Pages 57-133, Gerard van Koten, Stuart L. James, Johann T.B.H. Jastrzebski 3 - Mercury, Pages 135-173, Alwyn G. Davies, James L. Wardell 4 - Cadmium and Zinc, Pages 175-206, Paul O’brien 1 - Zero Oxidation State Complexes of Scandium, Yttrium and the Lanthanide Elements, Pages 1-9, F. Geoffrey, N. Cloke 2 - Scandium, Yttrium, and the Lanthanide and Actinide Elements, Excluding their Zero Oxidation State Complexes, Pages 11-212, Frank T. Edelmann 3 - Titanium Complexes in Oxidation States Zero and Below, Pages 213-219, F. Geoffrey, N. Cloke 4 - Titanium Complexes in Oxidation States +2 and +3, Pages 221-271, Manfred Bochmann 5 - Titanium Complexes in Oxidation State +4, Pages 273-431, Manfred Bochmann 6 - Zirconium and Hafnium Complexes in Oxidation States Zero and Below, Pages 433-437, F. Geoffrey, N. Cloke 7 - Metallocene(II) Complexes of Zirconium and Hafnium, Pages 439-463, Paul Binger, Stefan Podubrin 8 - Zirconium and Hafnium Compounds in Oxidation State +3, Pages 465-481, Evelyn J. Ryan 9 - Bis(cyclopentadienyl)zirconium and -hafnium Halide Complexes in Oxidation State +4, Pages 483-499, Evelyn J. Ryan 10 - Bis(cyclopentadienyl) Metal(IV) Compounds with Si, Ge, Sn, N, P, As, Sb, O, S, Se, Te or Transition Metal-centred Ligands, Pages 501-542, Evamarie Hey-Hawkins 11 - Zirconium and Hafnium Complexes in Oxidation State +4, Pages 543-588, J. Jubb, J. Song, D. Richeson, S. Gambarotta 12 - Cationic Organozirconium and Organohafnium Complexes, Pages 589-625, Anil S. Guram, Richard F. Jordan 13 - Cyclooctatetraene Complexes of Zirconium and Hafnium, Pages 627-632, F. Geoffrey, N. Cloke 1 - Vanadium, Pages 1-55, P. Berno, S. Gambarotta, D. Richeson 2 - Niobium and Tantalum, Pages 57-153, David E. Wigley, Steven D. Gray 3 - Hexacarbonyls and Carbonyl Complexes of Carbon σ-Bonded Ligands of Chromium, Molybdenum and Tungsten, Pages 155-214, Mark J. Winter 4 - Carbonyl Complexes of Noncarbon σ-Bonded Ligands of Chromium, Molybdenum and Tungsten, Pages 215-280, Simon Woodward 5 - Organometallic Compounds of Chromium, Molybdenum and Tungsten without Carbonyl Ligands, Pages 281-329, Mark J. Winter, Simon Woodward 6 - π-Complexes of Chromium, Molybdenum and Tungsten, Excluding those of Cyclopentadienyls and Arenes, Pages 331-391, Mark W. Whiteley 7 - Cyclopentadienyl Complexes of Chromium, Molybdenum and Tungsten, Pages 393-470, Michael J. Morris 8 - Arene and Heteroarene Complexes of Chromium, Molybdenum and Tungsten, Pages 471-549, Michael J. Morris 1 - Manganese Carbonyls and Manganese Carbonyl Halides, Pages 1-19, Paul M. Treichel 2 - Manganese Alkyls and Hydrides, Pages 21-82, Thomas C. Flood 3 - Manganese Complexes Containing Nonmetallic Elements, Pages 83-92, Paul M. Treichel 4 - Manganese Hydrocarbon Complexes Excluding Cyclopentadienyl, Pages 93-107, Keith F. McDaniel 5 - Cyclopentadienyl Manganese Complexes, Pages 109-118, Paul M. Treichel 6 - Manganese Nitrosyl and Isonitrile Complexes, Pages 119-126, Thomas C. Flood 7 - High-valent Organomanganese Compounds, Pages 127-150, Gregory S. Girolami, Robert J. Morris 8 - Technetium, Pages 151-166, Alfred P. Sattelberger, Jeffrey C. Bryan 9 - Low-valent Organorhenium Compounds, Pages 167-229, Joseph M. O’Connor 10 - High-valent Organorhenium Compounds, Pages 231-255, David M. Hoffman 1 - Iron Compounds without Hydrocarbon Ligands, Pages 1-99, Kenton H. Whitmire 2 - Mononuclear Iron Compounds with η1–η6 Hydrocarbon Ligands, Pages 101-229, Robert C. Kerber 3 - Dinuclear Iron Compounds with Hydrocarbon Ligands, Pages 231-258, Paul J. Fagan 4 - Polynuclear Iron Compounds with Hydrocarbon Ligands, Pages 259-289, Munetaka Akita 5 - Introduction to Organoruthenium and Organoosmium Chemistry, Pages 291-298, Michael I. Bruce 6 - Mononuclear Complexes of Ruthenium and Osmium Containing η1 Carbon Ligands, Pages 299-440, Anthony F. Hill 7 - Complexes of Ruthenium and Osmium Containing η2–η6 Hydrocarbon Ligands: (i) Complexes not Containing Cyclobutadiene, Cyclopentadienyl or η-Arene Coligands, Pages 441-472, Martin A. Bennett 8 - Complexes of Ruthenium and Osmium Containing η2–η6 Hydrocarbon Ligands: (ii) Complexes Containing Four- and Five-membered Rings (Including MCp(arene) Complexes), Pages 473-548, Martin A. Bennett, Karl Khan, Eric Wenger 9 - Complexes of Ruthenium and Osmium Containing η2–η6 Hydrocarbon Ligands: (iii) Complexes Containing Six-, Seven- and Eight-membered Rings, Pages 549-602, Martin A. Bennett 10 - Ruthenocenes and Osmocenes, Pages 603-624, Michael I. Bruce 11 - Binuclear Complexes of Ruthenium and Osmium Containing MetalMetal Bonds, Pages 625-681, Ray J. Haines 12 - Trinuclear Clusters of Ruthenium and Osmium: (i) Introduction and Simple Neutral, Anionic and Hydrido Clusters, Pages 683-746, Antony J. Deeming 13 - Trinuclear Clusters of Ruthenium and Osmium: (ii) Hydrocarbon Ligands on Metal Clusters, Pages 747-802, Anthony K. Smith 14 - Trinuclear Clusters of Ruthenium and Osmium: (iii) Clusters with Metal–Carbon Bonds to Heteroatom Ligands, Pages 803-834, Enrico Sappa 15 - Tetranuclear Clusters of Ruthenium and Osmium, Pages 835-906, Roland K. Pomeroy 16 - Medium- and High-nuclearity Clusters of Ruthenium and Osmium, Pages 907-960, Marie P. Cifuentes, Mark G. Humphrey 1 - Cobalt, Pages 1-114, Ray L. Sweany 2 - Rhodium, Pages 115-302, Paul R. Sharp 3 - Iridium, Pages 303-417, Jim D. Atwood 4 - Cluster Complexes of Cobalt, Rhodium, and Iridium, Pages 419-520, Craig E. Barnes 1 - Nickel Complexes with Carbonyl, Isocyanide, and Carbene Ligands, Pages 1-27, Clifford P. Kubiak 2 - NickelCarbon σ-Bonded Complexes, Pages 29-106, Anthony K. Smith 3 - NickelCarbon π- Bonded Complexes, Pages 107-191, Michael J. Chetcuti 4 - Palladium Complexes with Carbonyl, Isocyanide and Carbene Ligands, Pages 193-223, keith R. Dixon, Andrew C. Dixon 5 - PalladiumCarbon σ-Bonded Complexes, Pages 225-290, Allan J. Canty 6 - PalladiumCarbon π-Bonded Complexes, Pages 291-390, Julian A. Davies 7 - Platinum Complexes with Carbonyl, Isocyanide and Carbene Ligands, Pages 391-430, Ronald J. Cross 8 - PlatinumCarbon σ-Bonded Complexes, Pages 431-531, Gordon K. Anderson 9 - PlatinumCarbon π-Bonded Complexes, Pages 533-588, G. Brent Young 1 - Synthesis of Compounds Containing Heteronuclear MetalMetal Bonds, Pages 1-22, Richard D. Adams 2 - Heterodinuclear Compounds, Pages 23-84, Michael J. Chetcuti 3 - Heteronuclear Clusters Containing C1, C2, C3, ..., Cn Acyclic Hydrocarbyl Ligands, Pages 85-185, Yun Chi, Der-Kweng Hwang 4 - Binary Carbonyls, Carbonyls plus Hydrides, Carbonyls plus Phosphines, Cyclic Hydrocarbyls and Main-group Ligands without Acyclic Hydrocarbyls, Pages 187-254, Louis J. Farrugia 5 - Cluster Complexes with Bonds Between Transition Elements and Copper, Silver and Gold, Pages 255-322, Ian D. Salter 6 - Cluster Complexes with Bonds Between Transition Elements and Zinc, Cadmium, and Mercury, Pages 323-350, Edward Rosenberg, Kenneth I. Hardcastle 7 - Catalysis and Related Reactions with Compounds Containing Heteronuclear MetalMetal Bonds, Pages 351-385, Pierre Braunstein, Jacky Rose 1 - Lithium, Pages 1-92, Matthew Gray, Michael Tinkl, Victor Snieckus 2 - Sodium and Potassium, Pages 93-128, Alessandro Mordini 3 - Magnesium, Pages 129-157, John M. Brown, Susan K. Armstrong 4 - Zinc and Cadmium, Pages 159-190, Paul Knochel 5 - Boron, Pages 191-276, Michel Vaultier, Bertrand Carboni 6 - Aluminum, Pages 277-311, John J. Eisch 7 - Silicon, Pages 313-354, Ernest W. Colvin 8 - Tin, Pages 355-387, Tadashi Sato 9 - Mercury, Pages 389-435, Richard C. Larock 10 - Thallium, Pages 437-459, Istvan E. Marko, Chiu W. Leung 11 - Lead, Pages 461-485, John T. Pinhey 12 - Antimony and Bismuth, Pages 487-513, Yao-Zeng Huang, Zhang-Lin Zhou 13 - Selenium, Pages 515-569, Alain Krief 14 - Tellurium, Pages 571-601, Nicola Petragnani 1 - Introduction and Fundamentals, Pages 1-7, Louis S. Hegedus 2 - Transition Metal Hydrides: Hydrocarboxylation, Hydroformylation, and Asymmetric Hydrogenation, Pages 9-38, Iwao Ojima, Masakatsu Eguchi, Maria Tzamarioudaki 3.1 - Transition Metal Alkyl Complexes from Hydrometallation, Pages 39-58, James M. Takacs 3.2 - Transition Metal Alkyl Complexes from RLi and CuX, Pages 59-130, Bruce H. Lipshutz 3.3 - Transition Metal Alkyl Complexes: Main-group Transmetallation and Insertion Chemistry, Pages 131-160, William W. Leong, Richard C. Larock 3.4 - Transition Metal Alkyl Complexes: Oxidative Addition and Transmetallation, Pages 161-240, Vittorio Farina 3.5 - Transition Metal Alkyl Complexes: Oxidative Addition and Insertion, Pages 241-297, Bjorn C. Soderberg 3.6 - Transition Metal Alkyl Complexes: Multiple Insertion Cascades, Pages 299-321, Ronald Grigg, V. Sridharan 3.7 - Transition Metal Alkyl Complexes: Reductive Dimerization of Alkenes and Alkynes, Pages 323-347, Richard D. Broene 4 - Transition Metal Carbonyl Complexes, Pages 349-386, Roderick W. Bates 501 - Transition Metal Carbene Complexes: Cyclopropanation, Pages 387-420, Michael P. Doyle 5.2 - Transition Metal Carbene Complexes: Diazodecomposition, Ylide, and Insertion, Pages 421-468, Michael P. Doyle 5.3 - Transition Metal Carbene Complexes: Alkyne and Vinyl Ketene Chemistry, Pages 469-547, William D. Wulff 5.4 - Transition Metal Carbene Complexes: Photochemical Reactions of Carbene Complexes, Pages 549-576, Louis S. Hegedus 5.5 - Transition Metal Carbene Complexes: Tebbe’s Reagent and Related Nucleophilic Alkylidenes, Pages 577-599, John R. Stille 6.1 - Transition Metal Alkene, Diene, and Dienyl Complexes: Nucleophilic Attack on Alkene Complexes, Pages 601-622, Keith F. McDaniel 6.2 - Transition Metal Alkene, Diene, and Dienyl Complexes: Complexation of Dienes for Protection, Pages 623-635, William A. Donaldson 6.3 - Transition Metal Alkene, Diene, and Dienyl Complexes: Nucleophilic Attack on Diene and Dienyl Complexes, Pages 637-683, Anthony J. Pearson 7.1 - Transition Metal Alkyne Complexes: Transition Metal-stabilized Propargyl Systems, Pages 685-702, Andrew J.M. Caffyn, Kenneth M. Nicholas 7.2 - Transition Metal Alkyne Complexes: Pauson–Khand Reaction, Pages 703-739, Neil E. Schore 7.3 - Transition Metal Alkyne Complexes: Transition Metal-catalyzed Cyclotrimerization, Pages 741-770, Douglas B. Grotjahn 7.4 - Transition Metal Alkyne Complexes: Zirconium–Benzyne Complexes, Pages 771-784, Stephen L. Buchwald, Richard D. Broene 8.1 - Transition Metal Allyl Complexes: Telomerization of Dienes, Pages 785-796, James M. Takacs 8.2 - Transition Metal Allyl Complexes: Pd, W, Mo-assisted Nucleophilic Attack, Pages 797-904, Peter J. Harrington 8.3 - Transition Metal Allyl Complexes: Intramolecular Alkene and Alkyne Insertions, Pages 905-921, Wolfgang Oppolzer 8.4 - Transition Metal Allyl Complexes: Trimethylene Methane Complexes, Pages 923-958, Peter J. Harrington 8.5 - Transition Metal Allyl Complexes: π-Allylnickel Halides and Other π-Allyl Complexes Excluding Palladium, Pages 959-977, Damian J. Krysan 9.1 - Transition Metal Arene Complexes: Nucleophilic Addition, Pages 979-1015, Martin F. Semmelhack 9.2 - Transition Metal Arene Complexes: Ring Lithiation, Pages 1017-1038, Martin F. Semmelhack 9.3 - Transition Metal Arene Complexes: Side-chain Activation and Control of Stereochemistry, Pages 1039-1070, Stephen G. Davies, Tom D. McCarthy 10 - Synthetically Useful Coupling Reactions Promoted by Ti, V, Nb, W, Mo Reagents, Pages 1071-1095, Russell G. Dushin 11.1 - Transition Metal-catalyzed Oxidations: Asymmetric Epoxidation, Pages 1097-1135, Eric N. Jacobsen 11.2 - Transition Metal-catalyzed Oxidations: Asymmetric Hydroxylation, Pages 1137-1176, Istvan E. Marko, John S. Svendsen 11.3 - Transition Metal-catalyzed Oxidations: Other Oxidations, Pages 1177-1192, Shun-Ichi Murahashi, Takeshi Naota 12.1 - Transition Metals in Polymer Synthesis: Ziegler–Natta Reaction, Pages 1193-1208, Geoffrey W. Coates, Robert M. Waymouth 12.2 - Transition Metals in Polymer Synthesis: Ring-opening Metathesis Polymerization and Other Transition Metal Polymerization Techniques, Pages 1209-1232, Jeffrey S. Moore Structures of Organometallic Compounds Determined by Diffraction Methods, Pages 1-1283 Formula Index, Pages 1-221
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