New York, N.Y., : VCH Publishers, 1991

1-282-30813-0

9786612308130

0-470-14523-4

0-470-14544-7

1 online resource (633 p.)

Inorganic reactions and methods ; ; 9

ZuckermanJ. J <1936-1987.> (Jerold J.)

HagenA. P

541.3/9

541.39

Chemical kinetics - Effect of temperature on

Inorganic compounds - Synthesis

Inglese

Description based upon print version of record.

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 9; Formation of the Bonds to the Group-IVB (C, Si, Ge, Sn, Pb) Elements; Introduction; Formation of the Group-IVB (C, Si, Ge, Sn, Pb)-Group-IVB (C, Si, Ge, Sn, Pb) Element Bond; Introduction; Formation of the Carbon-Carbon Bond; Formation of the Si-Si Bond; in Elemental Silicon; from Oxides.; by Other Methods.; Formation of High-Purity Silicon; Electrochemical Formation of Compounds with Si-Si Bonds (Including Elemental Silicon)

from Metal Silicidesby Solvolysis in Aqueous or Liquid Ammonia Solutions.; Formation of Oligosilanes; Formation of Polymeric Compounds; from Silicon Hydrides and Organosilicon Hydrides; by the Action of a Silent Electric Discharge.; by Direct Photolysis.; by Sensitized Photolysis.; by Catalyzed Reactions.; by Reaction with Silylmetallic Compounds.; from Silicon Halides and Organosilicon Halides; by Electrochemical Reduction.; by Halide Elimination with Active Metals.; by Reaction with Silylmetallics.; by Catalyzed

Disproportionation.; by Reaction with Organomagnesium Halide Reagents.

by the Action of Silent Electric Discharge.by Mercury-Photosensitized Photolyses.; from Bissilylmercury Compounds; by Thermolysis.; by Photolysis.; from Organosilanes and Silicon Halides by Hydrogenolysis.; from Silylenes; by Oligomerization.; by Insertions into Bonds of Silicon to Hydrogen, Oxygen and Silicon.; by Addition to Si = C.; in the Direct Reaction of Methyl Chloride with Silicon-Copper.; Formation of the Germanium-Germanium Bond; in Elemental Germanium; from Oxides.; from Sulfides.; by Other Syntheses.; Formation of High-Purity Germanium.; from Organogermanium Hydrides

by Reaction with Diorganomercury Compounds in the Presence of UV Radiation.by Hydrogermolysis Reaction.; by Germanium Hydride Decomposition.; from Ge(lV) Halides and Organogermanium(IV) Halides; by the Action of a Microwave Discharge of Ge(lV) Halides.; by Electrochemical Reduction.; by Halide Elimination with Active Metals.; by Reaction with Germyl-Metal Reagents.; by Reaction with Organometallic Reagents.; from Germanium(lI) Halides; by Reactions with Germyl-Metal Reagents.; by Reaction with Organometallic Reagents.; from Germyl Compounds of Cadmium, Mercury, Thallium, Antimony and Bismuth

by Thermolysis or Photolysis.from Germylenes; by Oligomerization of Germylenes.; by Insertions into Bonds of Germanium to Hydrogen, Halogen, Carbon, Oxygen, Sulfur, Nitrogen, Phosphorus and Germanium.; The Formation of the Tin-Tin Bond; in Elemental Tin; from Oxides.; from Sulfides.; by Other Syntheses.; Allotropy of Tin; from Organotin Hydrides; by Catalytic Hydrogen Elimination.; by Reaction with Organotin Halogen, Pseudohalogen, Chalcogen and Pnictogen Compounds.; by Reaction with Organometallic Compounds.; by Reaction with Reducible Organic Compounds.; from Organotin Halides

by Electrochemical Reduction.

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 maximize