جزییات کتاب
For the first time the discipline of modern inorganic chemistry has been systematized according to a plan constructed by a council of editorial advisors and consultants, among them three Nobel laureates (E.O. Fischer, H. Taube and G. Wilkinson). Rather than producing a collection of unrelated review articles, the series creates a framework which reflects the creative potential of this scientific discipline. Thus, it stimulates future development by identifying areas which are fruitful for further research. The work is indexed in a unique way by a structured system which maximizes its usefulness to the reader. It augments the organization of the work by providing additional routes of access for specific compounds, reactions and other topics.Content: Chapter 5.8.1 Introduction (pages 2–18): A. P. Hagen and G. B. YoungChapter 5.8.2.8.2 ??Allyl Metal Complexes by Reaction with the Corresponding Metal Halides (pages 18–35): S. S. Wreford, R. Pankayatselvan and K. M. NicholasChapter 5.8.2.8.3 ?5??Cyclopentadienyl Metal Complexes by Reaction with the Corresponding Metal Halides (pages 35–68): R. T. BakerChapter 5.8.2.8.4 ?1 ??Acyls from Alkali?Metal Carbanions and Metal Carbonyls (pages 68–72): E. RoseneergChapter 5.8.2.8.5 ?1 ??Acyl and Carbene Complexes by Reaction With Corresponding Metal–Carbonyl Complexes (pages 72–86): E. O. Fischer and H. FischerChapter 5.8.2.8.6 ?1 ??Cyanide Complexes (pages 87–104): L. M. VallarinoChapter 5.8.2.8.7 Ylide Complexes of the Transition Metals by Treating the Ylide with Transition?Metal Halide (pages 104–107): W. C. KaskaChapter 5.8.2.9 From Organic Halides, Tosylates and Acetates (pages 108–121): E. RoseneergChapter 5.8.2.9.2 (?1)???Alkyl–, ?Aryl–, and ?Acyl–Metal Complexes by Reaction with Metal?Complex Anions (pages 121–125): P. M. TreichelChapter 5.8.2.9.3 ?1 ??Alkyl–, ?Aryl–, Acyl– and Silyl Metal Complexes by Reaction of Metal?Atom Vapors (pages 125–131): K. J. KlabundeChapter 5.8.2.9.4 ?3 ??Allyl Transition?Metal Complexes by Oxidative Addition (pages 131–153): K. Zetterberg, B. Akermark and J.?E. BackvallChapter 5.8.2.9.5 ?4 ??Cyclobutadienyl Complexes from 3,4?Dihalocyclobutenes (pages 153–156): E. RosenbergChapter 5.8.2.10 From Aldehydes (pages 156–159): J. W. SuggsChapter 5.8.2.11 From Other Organometallics (pages 160–167): R. C. Larock Chapter 5.8.2.11.2 by Transmetallation from Mercury (pages 167–176): R. C. LarockChapter 5.8.2.11.3 by Transmetallation from Other Metal Organometallics to Metal Halides (pages 176–183): E. NegishiChapter 5.8.2.12 From Carbon Monoxide (pages 183–190): G. P. Chiusoli and M. CatellaniChapter 5.8.2.12.2 Carbonyl Complexes by Ligand?Exchange Reactions (pages 190–197): G. P. Chiusoli and M. CatellaniChapter 5.8.2.12.3 ?1 ??Acyl Complexes by Insertion of Co in ??Alkyl Complexes (pages 197–201): F. CalderazzoChapter 5.8.2.12.4 Carbamoyl Complexes by Reaction of Metal Carbonyls with Amines (pages 201–204): P. M. TreichelChapter 5.8.2.12.5 Alkoxycarbonyl Complexes by Reaction of Metal Carbonyls with Alcohols and Alkoxides (pages 204–206): P. M. TreichelChapter 5.8.2.13 From Carbon Disulfide, Thioacid Chlorides, or Carbon Diselenide (pages 206–209): I. S. ButlerChapter 5.8.2.14 From Carbon Dioxide (pages 209–212): D. M. RoundhillChapter 5.8.2.15 From Isonitriles (pages 213–215): H. YamazakiChapter 5.8.2.15.2 Iminoacyl Complexes by Isonitrile Insertion (pages 216–218): Y. YamamotoChapter 5.8.2.16 From Miscellaneous Species (pages 218–221): E. O. Fischer and U. SchubertChapter 5.8.2.16.2 Carbyne Complexes by Deprotonation of Cationic Carbene Complexes (pages 222–224): C. M. LukehartChapter 5.8.2.16.3 Carbyne Complexes by Dehalogenation of Chlorocarbene Complexes (pages 224–225): C. M. LukehartChapter 5.8.2.16.4 By Metal?Atom and Related Reactions (pages 225–227): K. J. KlabundeChapter 5.8.3 The Formation of the Silicon?Transition and Inner Transition?Metal Bond (page 227): S. A. A. KnoxChapter 5.8.3.2.1 By Reaction with a Transition? or Inner Transition?Metal Halide Derivative in the Presence of Triethylamine (pages 227–228): S. A. R. KnoxChapter 5.8.3.2.2 By Reaction with a Transition? or Inner Transition?Metal Hydride Complex (pages 228–229): S. A. R. KnoxChapter 5.8.3.2.3 By Reaction with a Mononuclear Transition? or Inner Transition?Metal Carbonyl in the Presence of Ultraviolet Radiation (pages 229–230): S. A. R. KnoxChapter 5.8.3.2.4 By Reaction with Di? or Trinuclear Transition? or Inner Transition?Metal Carbonyl Complexes (pages 230–234): S. A. R. KnoxChapter 5.8.3.2.5 By Oxidative Addition to a Low?Valent Transition? or Inner Transition?Metal Complex (pages 234–237): S. A. R. KnoxChapter 5.8.3.2.6 By Reaction with a Group?IVb Transition? or Inner Transition?Metal Derivative (pages 237–239): S. A. R. KnoxChapter 5.8.3.3 From Silicon Halides (pages 239–242): S. A. R. KnoxChapter 5.8.3.4 From Silyl?Alkali Metal Reagents (pages 242–243): S. A. R. KnoxChapter 5.8.3.4.2 By Reaction with a Low?Valent Transition? or Inner Transition?Metal Complex (page 243): S. A. R. KnoxChapter 5.8.3.5 From Bis(Silyl) Mercurials (pages 244–245): S. A. R. KnoxChapter 5.8.3.5.2 By Reaction with Low?Valent Transition? or Inner Transition?Metal Complexes (page 245): S. A. R. KnoxChapter 5.8.3.6 Miscellaneous Reactions (pages 245–246): S. A. R. KnoxChapter 5.8.3.6.2 From Sila? and 1,3?Disilacyclobutanes by Reaction With Fe2(Co)9 (pages 246–248): S. A. R. Knox Chapter 5.8.3.6.3 By Reaction of SiR4 with a Low?Valent Transition? or Inner Transition?Metal Complex (page 248): S. A. R. KnoxChapter 5.8.3.6.4 From Silyl Amides by Reaction with a Transition? or Inner Transition?Metal Hydride (pages 248–249): S. A. R. KnoxChapter 5.8.4 the Formation of the Germanium–Transition and Inner?Transtion Metal Bond (page 249): K. M. MackayChapter 5.8.4.1 From the Elements (pages 249–250): K. M. MackayChapter 5.8.4.2 From Germanium Hydrides (pages 250–255): K. M. MackayChapter 5.8.4.2.2 By Oxidative Addition to Low?Coordinate Transition?Metal Complexes (pages 255–258): K. M. MackayChapter 5.8.4.2.3 By Reaction with Transition? or Inner?Transition?Metal Halide, Hydride and Related Complexes (pages 258–260): K. M. MackayChapter 5.8.4.2.4 By Proton Abstraction of Hydrogen to form Unsaturated Ge–Metal Bonds (pages 260–261): K. M. MackayChapter 5.8.4.2.5 Miscellaneous Reactions of the Ge—H Bond (pages 261–262): K. M. Mackay Chapter 5.8.4.3 From Germanium Halides (pages 262–266): K. M. MackayChapter 5.8.4.3.2 By Reaction of Germanium Tetrahalides with Neutral Mononuclear Metal Carbonyls and Related Species (pages 266–267): K. M. MackayChapter 5.8.4.3.3 By Reaction with a Silyl–Transition? or Inner?Transition?Metal–Metal Complex (page 268): K. M. MackayChapter 5.8.4.4 From Germyl–Alkali?Metal Reagents (pages 268–271): K. M. MackayChapter 5.8.4.5 From Bis(Germyl)Mercury or ?Cadmium [Note: these Substances are Highly Toxic and Must be Handled with Care.] (pages 271–272): K. M. MackayChapter 5.8.4.5.2 By Reaction with Low?Valent Transition? or Inner?Transition?Metal Complexes (pages 272–273): K. M. MackayChapter 5.8.4.5.3 By Reaction with Binuclear Metal Carbonyls (page 273): K. M. MackayChapter 5.8.4.6 From Germanium(II) (pages 273–275): K. M. MackayChapter 5.8.4.6.2 By use of [Gex3]? (pages 275–276): K. M. MackayChapter 5.8.4.7 From Germyl Amides by Reaction with Transition? or Inner?Transition?Metal Hydrides (pages 276–277): K. M. MackayChapter 5.8.4.8 From Species Containing Ge Bonded to Unsaturated Ligands (page 277): K. M. MackayChapter 5.8.5 The Formation of the Tin–Transition? or Inner Transition?Metal Bond (pages 277–278): K. M. MackayChapter 5.8.5.1 From the Elements (page 278): M. J. NewlandsChapter 5.8.5.2 From Organotin Hydrides (pages 278–279): M. J. NewlandsChapter 5.8.5.2.2 By Reaction with Polynuclear Transition? or Inner Transition?Metal Carbonyl Derivatives (page 279): M. J. NewlandsChapter 5.8.5.2.3 By Reaction with Transition? or Inner Transition?Metal?Halide and ?Amide Complexes (pages 279–280): M. J. NewlandsChapter 5.8.5.2.4 By Reaction with Transition?Metal or Inner Transition?Metal?Olefin Complexes (page 280): M. J. NewlandsChapter 5.8.5.2.5 By Reaction with Silyl?Transition?Metal or ?Inner Transition?Metal Complexes (page 280): M. J. NewlandsChapter 5.8.5.3 From Tin(IV) and Organotin Halides (pages 280–282): M. J. NewlandsChapter 5.8.5.3.2 By Reaction with a Transition? or Inner Transition?Metal?Hydride Complex (page 283): M. J. NewlandsChapter 5.8.5.3.3 By Reaction with a Transition? or Inner Transition?Metal?Mercury Complex (page 283): M. J. NewlandsChapter 5.8.5.3.4 By Reaction with Mononuclear Transition?Metal Carbonyl Derivatives (pages 283–284): M. J. NewlandsChapter 5.8.5.3.5 By Reaction with Polynuclear Transition? or Inner Transition?Metal Carbonyl Derivatives (pages 284–285): M. J. NewlandsChapter 5.8.5.3.6 By Reaction with Transition? or Inner Transition?Metal?Olefin Complexes and Other Complexes with Readily Displaceable Ligands (pages 285–286): M. J. NewlandsChapter 5.8.5.4 From Organotin?Nitrogen Compounds (page 286): M. J. NewlandsChapter 5.8.5.4.2 By Reaction of an Organotin Azide with a Transition? or Inner Transition?Metal?Hydride Complex (page 286): M. J. NewlandsChapter 5.8.5.4.3 By Reaction of Organotin?Nitrogen Compounds with Other Complexes of the Transition or Inner Transition Metals (pages 286–287): M. J. NewlandsChapter 5.8.5.5 From Stannyl?Active Metal Reagents (pages 287–288): M. J. NewlandsChapter 5.8.5.6 From Tetraorganotin Compounds (page 288): M. J. NewlandsChapter 5.8.5.6.2 By Reaction of Vinyitin Compounds with Transition? or Inner Transition?Metal?Carbonyl Complexes (page 288): M. J. NewlandsChapter 5.8.5.6.3 By Reaction of Allyltin Compound with Transition? or Inner Transition?Metal?Carbonyl and Other Complexes (page 289): M. J. NewlandsChapter 5.8.5.6.4 By Reaction of Aryltin Compound and Cyclopentadienyltin Compounds with Transition? or Inner Transition?Metal?Carbonyl and Other Complexes (pages 289–290): M. J. NewlandsChapter 5.8.5.7 From Hexalkylditin Compounds by Reaction with Low?Valent Transition? or Inner Transition?Metal Complexes (page 290): M. J. NewlandsChapter 5.8.5.8 From Tin(II) Halides and Related Tin (II) Compounds (pages 290–293): M. J. NewlandsChapter 5.8.5.8.2 By Reaction with a Transition? or Inner Transition?Metal?Metal Alkyl or Hydride Complex (page 293): M. J. NewlandsChapter 5.8.5.8.3 By Reaction with Transition? or Inner Transition?Metal?Carbonyl and Similar Complexes (pages 293–294): M. J. NewlandsChapter 5.8.5.8.4 Miscellaneous Reactions of Sn(II) Compounds (pages 294–295): M. J. NewlandsChapter 5.8.6 The Formation of the Lead?Transition or Inner Transition?Metal Bond (page 295): M. J. NewlandsChapter 5.8.6.1 From the Elements (page 295): M. J. NewlandsChapter 5.8.6.3 From Organolead Hydroxides and Other Organolead Salts (page 297): M. J. NewlandsChapter 5.8.6.4 From Organolead Anion Reagents by Reaction with Transition? or Inner Transition?Metal?Halide Complexes (page 297): M. J. NewlandsChapter 5.8.6.5 By Other Methods (page 297): M. J. NewlandsChapter 5.9 The Formation of the Group IVB?Group 0 Element Bond (page 298): N. BartlettChapter 5.10 The Formation of Carbides, Silicides and Germides (pages 299–300): A. P. Hagen and E. K. StormsChapter 5.10.2.1 Formation of Group I Carbides (page 300): E. K. StormsChapter 5.10.2.1.1 Lithium Carbides (pages 300–301): E. K. StormsChapter 5.10.2.1.2 Sodium Carbides (page 301): E. K. StormsChapter 5.10.2.1.3 Potassium, Rubidium and Cesium Carbides (page 302): E. K. StormsChapter 5.10.2.2 Formation of the Group?II Carbides (page 302): E. K. StormsChapter 5.10.2.2.2 Magnesium Carbide (pages 302–303): E. K. StormsChapter 5.10.2.2.3 Calcium Carbide (page 303): E. K. StormsChapter 5.10.2.2.4 Strontium Carbide (pages 303–304): E. K. StormsChapter 5.10.2.2.5 Barium Carbide (page 304): E. K. StormsChapter 5.10.2.3 Formation of Group?IIIb Carbides (page 304): E. K. StormsChapter 5.10.2.3.1 Boron Carbides (pages 304–305): E. K. StormsChapter 5.10.2.3.2 Aluminum Carbide (page 305): E. K. StormsChapter 5.10.2.4 Formation of Group?IVb Carbides (pages 305–306): E. K. StormsChapter 5.10.2.5 Formation of SC, Y and LA Carbides (pages 306–307): E. K. StormsChapter 5.10.2.5.2 Yttrium Carbides (page 307): E. K. StormsChapter 5.10.2.5.3 Lanthanum Carbides (pages 307–308): E. K. StormsChapter 5.10.2.6 Formation of the Rare?Earth Carbides (page 308): E. K. StormsChapter 5.10.2.7 Actinide Carbides (pages 308–309): E. K. StormsChapter 5.10.2.7.2 Uranium Carbides (pages 309–310): E. K. StormsChapter 5.10.2.7.3 Plutonium Carbides (page 310): E. K. StormsChapter 5.10.2.8 The Formation of Transition?Metal Carbides (pages 310–311): E. K. StormsChapter 5.10.2.8.1 Titanium, Zirconium and Hafnium Carbides (pages 311–312): E. K. StormsChapter 5.10.2.8.2 Vanadium, Niobium and Tantalum Carbides (pages 312–313): E. K. StormsChapter 5.10.2.8.3 Chromium Carbides (pages 313–314): E. K. StormsChapter 5.10.2.8.4 Molybdenum Carbides (page 314): E. K. StormsChapter 5.10.2.8.5 Tungsten Carbides (pages 314–315): E. K. StormsChapter 5.10.2.8.6 Manganese Carbide (page 315): E. K. StormsChapter 5.10.2.8.7 Technetium Carbide (page 316): E. K. StormsChapter 5.10.2.8.8 Rhenium Carbide (page 316): E. K. StormsChapter 5.10.2.9 Formation of Group?VIII Carbides (pages 316–317): E. K. StormsChapter 5.10.2.9.2 Cobalt Carbides (page 317): E. K. StormsChapter 5.10.2.9.3 Nickel Carbides (page 318): E. K. StormsChapter 5.10.2.9.4 Ruthenium and Osmium Carbide (page 318): E. K. StormsChapter 5.10.2.9.5 Carbides of Rhodium, Palladium, Iridium, and Platinum (page 318): E. K. StormsChapter 5.10.2.10 The Formation of Complex Carbides (pages 318–319): E. K. StormsChapter 5.10.2.10.2 Transition Metal?Nonmetal?Carbon Carbides (pages 319–321): H. NowotnyChapter 5.10.2.10.3 Multicomponent Carbides (pages 321–323): P. EttmayerChapter 5.10.3 The Formation of Silicides (pages 323–324): R. Pretorius and J. J. CruywagenChapter 5.10.3.1 Of Groups IA and IIA (pages 325–326): R. Pretorius and J. J. CruywagonChapter 5.10.3.2 Of Transition?, Inner?Transition and Group?IB and ?IIB Metal Silicides (pages 326–338): R. Pretorius and J. J. CruywagenChapter 5.10.3.2.2 Of Inner?Transition?Metal Silicides (pages 338–339): R. Pretorius and J. J. CruywagenChapter 5.10.3.2.3 Of Silicides of Groups IB and IIB (page 339): R. Pretorius and J. J. CruywagenChapter 5.10.3.3 Of Ternary and Multicomponent Silicides (pages 339–340): R. Pretorius and J. J. CruywagenChapter 5.10.4 The Formation of Germanides (pages 340–343): R. Pretorius and J. J. CruywagenChapter 5.10.4.2 Formation of Ternary Germanides (page 343): R. Pretorius and J. J. Cruywagen