00962cam0 2200265 450 E60020005895120210125113037.020100126d1979 |||||ita|0103 bagerDESchellingseine Bedeutung für eine Philosophie der Natur und der GeschichteReferate und Kolloquien der Internationale Schelling-Tagung Zurich 1979(hrsg) Ludwig HaslerStuttgart-Bad CannstattFromman-Holzboog1979319 p.22 cmProblemata91001LAEC000243682001 *Problemata91Hasler, LudwigA600200056248070ITUNISOB20210125RICAUNISOBUNISOB10044980E600200058951M 102 Monografia moderna SBNM100003437Si44980acquistomassimoUNISOBUNISOB20100126104656.020210125113027.0AlfanoSchelling87745UNISOB05295nam 2200661Ia 450 991014431960332120170814190129.01-282-30846-797866123084680-470-14529-30-470-14550-1(CKB)1000000000376309(EBL)468911(OCoLC)746577128(SSID)ssj0000299744(PQKBManifestationID)11947455(PQKBTitleCode)TC0000299744(PQKBWorkID)10242751(PQKB)10158385(MiAaPQ)EBC468911(EXLCZ)99100000000037630919980526d1998 uy 0engur|n|---|||||txtccrFormation of bonds to transition and inner-transition metals[electronic resource] /founding editor J.J. Zuckerman; editor, J.D. AtwoodNew York Wiley-VCHc19981 online resource (727 p.)Inorganic reactions and methods ;14Description based upon print version of record.0-471-19201-5 Includes bibliographical references and indexes.Inorganic Reactions and Methods; Contents; How to use this Book; Preface to the Series; Editorial Consultants to the Series; Contributors to Volume 14; The Formation of the Bond to the Transition and Inner-Transition Metals; Introduction; The Formation of the Transition and Inner-Transition Metal to Transition and Inner-Transition Metal Bond; Introduction; In the Metal; From Oxides; From Sulfides; From Halides; Fluorides.; Chlorides.; From Other Compounds; Carbides.; From Molten Salts (by Electrolysis).; Purification of Transition Metals; Preferential Oxidation or Reduction.Vacuum Melting, Distillation, and Zone Melting.Electrotransport.; Chemical Separations of the Inner-Transition Metals; Chemical Separations by Oxidation-Reduction Processes.; Ion Exchange Chromatography.; Solvent Extraction.; Extraction Chromatography.; In Alloys and Clusters; From the Metals; From Compounds; Clusters; Between the Same Metals in Carbonyls and Their Derivatives; In Bi- and Polynuclear Metal Carbonyls; By Carbonylation and Reduction of Metal Oxides, Halides and Other Salts.; By Photolysis of Mononuclear Carbonyls.; By Thermolysis Reactions.In Bi- and Polynuclear Metal Carbonyl Anions and Carbonyl HydridesBy Reactions of Monomeric Carbonyls.; By Other Methods.; In Substituted Carbonyls Containing Group VIB Ligands; In Substituted Carbonyls Containing Group VB Ligands; In Substituted Carbonyls Containing Two-Electron Group IVB Ligands; In Substituted Carbonyls Containing Three-Electron Group IVB Ligands; In Substituted Carbonyls Containing Four-Electron Group IVB Ligands; In Substituted Carbonyls Containing Five-Electron Group IVB Ligands; In Substituted Carbonyls Containing Six-Electron Group IVB LigandsIn Substituted Carbonyls Containing Other Group IVB LigandsIn Carbonyl Halides; In Cyanides and lsocyanides; In Nitrosyl Derivatives; Between Different Metals in Carbonyls and Their Derivatives; By Pyrolysis; By Photochemical Reactions; By Reactions of Carbonyls with Carbonyl Anions; By Reaction of a Metal Halide with a Metal Carbonyl Anion; By Reactions of Unsaturated or Weakly Stabilized Metal Complexes with Metal Nucleophiles; By Other Methods; Between First-Row Transition Metals (Excluding Chromium); Formation of the Titanium-Titanium Bond; In Titanium Halides and Their Complexes.In Cyclopentadienyl and Related Titanium Complexes.Formation of the Vanadium-Vanadium Bond; Formation of the Manganese-Manganese Bond; Formation of the Iron-Iron Bond; Formation of the Cobalt-Cobalt Bond; Formation of the Nickel-Nickel Bond; Formation of the Copper-Copper Bond; Formation of the Chromium-Chromium Bond; From Aqueous Cr(ll) Solutions; From Chromium Halides or Chromocene; From Substitution Reactions of Cr2(02CCH3)4; By Other Methods; Formation of Heavy Transition Metal Group V Metal-Metal Bonds; Synthesis of Hexanuclear Niobium and Tantalum ClustersIn Niobium and Tantalum Halides Without Hexanuclear Cluster UnitsBoasting numerous industrial applications, inorganic chemistry forms the basis for research into new materials and bioinorganic compounds such as calcium that act as biological catalysts. Now complete, this highly acclaimed series presents current knowledge in all areas of inorganic chemistry, including chemistry of the elements; organometallic, polymeric and solid-state materials; and compounds relevant to bioinorganic chemistry.Zuckerman: Inorganic Reactions and MethodsMetal-metal bondsChemical bondsElectronic books.Metal-metal bonds.Chemical bonds.541.3/9546Zuckerman J. J(Jerold J.),1936-1987.857123Atwood Jim D.1940-895644MiAaPQMiAaPQMiAaPQBOOK9910144319603321Formation of bonds to transition and inner-transition metals2000779UNINA