Germanium.- 1. Symmetrie Tetraorganogermanes.- 1.1 Nonfunctional Symmetrie Tetraorganogermanes.- 1.3 Functional Symmetrie Tetraorganogermanes.- 2. Unsymmetric Tetraorganogermanes.- 2.1 Nonfunctional Unsymmetric Tetraorganogermanes.- 2.1.1 Derivatives with Two Different Organic Groups.- 2.1.2 Tetraorganogermanes with Three Different Organic Groups.- 2.1.3 Nonfunctional Asymmetric Tetraorganogermanes.- 2.3 Heterocyclic Substituted Tetraorganogermanes.- 2.4 Unsymmetric Tetraorganogermanes with Olefinic Substituents.- 2.4.1 Unsymmetric Tetraorganogermanes Containing Halogen Substituted Olefins.- 2.4.3 Unsymmetric Tetraorganogermanes Containing Functionally Substituted Olefins.- 2.5 Unsymmetric Tetraorganogermanes with Acetylenic Substituents.- 2.5.1 Unsymmetric Tetraorganogermanes Containing Halogen Substituted Acetylenes.- 2.5.3 Unsymmetric Tetraorganogermanes Containing Functionally Substituted Acetylenes.- 2.6 Functionally Substituted Unsymmetric Tetraorganogermanes.- 2.6.1 Tetraorganogermanes Containing Halogen.- 2.6.2 Tetraorganogermanes Containing Pseudohalogen Substituents.- 2.6.3 Tetraorganogermanes Containing Oxygen.- 2.6.3.1 Organogermanes with Hydroxy Groups and Their Derivatives.- 2.6.3.3 Tetraorganogermanes Containing Carbonyl Groups.- 2.6.3.4 Tetraorganogermanes Containing Carboxyl Groups and Derivatives.- 2.6.4 Tetraorganogermanes Containing Sulfur.- 2.6.5 Tetraorganogermanes Containing Nitrogen and Phosphorus.- 2.7 Polymetallic Tetraorganogermanes.- 2.7.1 Bridged Polyorganogermanes.- 2.7.1.1 Tetraorganogermanes with Two Germanium Atoms.- 2.7.1.1.1 Nonfunctional Derivatives.- 2.7.1.1.3 Functionally Substituted Bis(tetraorganogermanes).- 2.7.1.2 Tetraorganogermanes Containing Three to Four Ge-Atoms.- 2.7.1.8 Polymeric Tetraorganogermanes.- 2.7.2 Tetraorganogermanes Containing Organosilicon Substituents.- 2.7.3 Tetraorganogermanes Containing Organotin Substituents.- 2.7.4 Tetraorganogermanes Containing Organo lead Substituents.- 2.7.5 Tetraorganogermanes Containing Group III Metals.- 2.7.6 Tetraorganogermanes Containing Magnesium.- 2.7.7 Tetraorganogermanes Containing Alkali Metals.- 2.7.8 Tetraorganogermanes Containing Transition Metals.- 3. Organogermanium Hydrides.- 3.1 Nonfunctional Organogermanium Hydrides.- 3.2 Unsymmetric Organogermanium Hydrides.- 3.3 Deuterium Substituted Organogermanium Hydrides.- 3.6 Functionally Substituted Organogermanium Hydrides.- 3.8 Organogermanium Hydrides Containing Heteroatorn-Germanium Bonds.- 3.8.1 Organogermanium Hydride Halides.- 3.8.2 Organogermanium Hydride Pseudohalides.- 3.8.3 Other Organogermanium Heterohydrides.- 4. Organogermanium Compounds Containing Heteroatom-Germanium Bonds.- 4.1 Compounds with Halogen.- 4.1.1 Triorganogermanium Halides.- 4.1.1.1 Unsubstituted Symmetric Triorganogermanium Halides.- 4.1.1.2 Unsymmetric Unsubstituted Triorganogermanium Halides.- 4.1.1.6 Functionally Substituted Triorganogermanium Halides.- 4.1.2 Diorganogermanium Dihalides.- 4.1.2.1 Unsubstituted Symmetric Diorganogermanium Dihalides.- 4.1.2.2 Unsymmetric Unsubstituted Diorganogermanium Dihalides.- 4.1.2.6 Functionally Substituted Diorganogermanium Dihalides.- 4.1.3 Organogermanium Trihalides.- 4.1.3.1 Unsubstituted Organogermanium Trihalides.- 4.1.3.4 Unsaturated Organogermanium Trihalides.- 4.1.3.6 Functionally Substituted Organogermanium Trihalides.- 4.1.3.6.1 Halogen Substituted Organogermanium Trihalides.- 4.1.3.6.2 Pseudohalogen Substituted Organogermanium Trihalides.- 4.1.3.6.3 Oxygen Containing Organogermanium Trihalides.- 4.1.3.6.3.1 Organogermanium Trihalides Containing Hydroxy Derivatives.- 4.1.3.6.3.3 Derivatives Containing Carbonyl Groups.- 4.1.3.6.3.4 Compounds Containing Carboxylic Groups.- 4.1.3.6.5 Organogermanium Trihalides Containing Phosphorus.- 4.1.3.6.7 Polymetallic Organogermanium Trihalides.- 4.1.3.6.7.1 Bridged Polyorganogermanium Trihalides.- 4.3.6.7.2 Organogermanium Trihalides Containing Silicon and Boron.- 4.1.4 Organogermanium Halides Containing Germanium-Pseudohalogen Bonds.- 4.1.5 Organogermanium Halides Containing Germanium-Oxygen Bonds.- 4.1.6 Organogermanium Halides Containing Germanium-Sulfur Bonds.- 4.1.7 Organogermanium Halides Containing Germanium-Nitrogen Bonds.- 4.1.8 Organogermanium Halides Containing Germanium-Metal Bonds.- 4.2 Organo germanium Salts.- 4.2.1 Organogermanium Pseudohalides.- 4.2.4 Organogermanium Salts or Esters of Oxygen Acids.- 4.3 Organogermanes with Germanium-Oxygen Bonds.- 4.3.1 Organogermanium Oxides and Hydroxides.- 4.3.1.1 Triorganogermanium Oxides and Hydroxides.- 4.3.1.1.1 Unsubstituted Triorganogermanium Oxides and Hydroxides.- 4.3.1.1.6 Substituted Triorganogermanium Oxides and Hydroxides.- 4.3.1.2 Diorganogermanium Oxides.- 4.3.1.3 Monooreanogermanium Oxides.- 4.3.2 Organogermanium Peroxy Compounds.- 4.3.3 Organogermanium Alkoxides and Phenoxides.- 4.3.3.1 Triorganogermanium Alkoxides.- 4.3.3.1.1 Unsubstituted Triorganogermanium Alkoxides.- 4.3.3.1.6 Functionally Substituted Triorganogermanium Alkoxides.- 4.3.3.1.8 Triorganogermanium Alkoxides Derived from Dihydric Alcohols.- 4.3.3.1.9 Triorganogermanium Mixed Oxides.- 4.3.3.2 Diorgano germanium Dialkoxides.- 4.3.3.2.1 Unsubstituted Diorganogermanium Alkoxides.- 4.3.3.2.6 Functionally Substituted Diorganogermanium Dialkoxides.- 4.3.3.2.8 Diorganogermanium Alkoxides Derived from Dihydric Alcohols.- 4.3.3.2.9 Diorganogermanium Mixed Oxides.- 4.3.3.3 Monoorganogermanium Trialkoxides.- 4.3.3.3.1 Unsubstituted Organogermanium Trialkoxides.- 4.3.3.3.6 Functionally Substituted Monoorganogermanium Trialkoxides.- 4.3.3.4 Organogermanium Alkoxides Containing Germanium-Heteroatom Bonds.- 4.3.4 Organogermanium Acetals and Enolates.- 4.3.5 Organogermanium Carboxylates.- 4.3.5.1 Triorganogermanium Carboxylates.- 4.3.5.1.1 Unsubstituted Triorganogermanium Carboxylates.- 4.3.5.1.6 Functionally Substituted Triorganogermanium Carboxylates.- 4.3.5.2 Diorganogermanium Carboxylates.- 4.3.5.3 Monoorganogermanium Carboxylates.- 4.4 Organo germane s with Sulfur, Selenium and Tellurium.- 4.4.1 Organogermanium Sulfides, Selenides and Tellurides.- 4.4.1.4 Organogermanium Thiols and Selenols.- 4.4.2 Organogermanium Mercaptides, Organoselenides and Organotellurides.- 4.4.2.1 Triorganogermanium Mercaptides, Organoselenides and Organotellurides.- 4.4.2.1.1 Unsubstituted Derivatives.- 4.4.2.1.6 Functionally Substituted Triorgano germanium Mercaptides and Organoselenides.- 4.4.2.2 Diorgano germanium Mercaptides.- 4.4.2.2.1 Unsubstituted Diorgano germanium Mercaptides.- 4.4.2.2.6 Functionally Substituted Diorgano germanium Mercaptides.- 4.4.2.3 Monoorganogermanium Trimercaptides.- 4.4.4 Organogermanium Derivatives of Organic Thioacids.- 4.4.7 Metal Substituted Organogermanium Sulfides, Selenides and Tellurides.- 4.5 Organogermanium Derivatives with Nitrogen, Phosphorus, Arsenic, Antimony and Bismuth.- 4.5.1 Organogermanium Amides.- 4.5.1.1 Triorganogermanium Amides.- 4.5.1.2 Diorganogermanium Diamides.- 4.5.1.3 Monoorganogermanium Triamides.- 4.5.2 Organogermanium Compounds with Substituted Amines.- 4.5.2.1 Organogermanium Derivatives of Heterocyclic Amines.- 4.5.2.4 Organogermanium Derivatives of Amidines, Imides and Hydrazine.- 4.5.3 Organogermanium Derivatives of Acid Amides and Acid Imides.- 4.5.4 Organogermanium Metal Imides.- 4.5.5 Organogermanium Amido and Imido Phosphines.- 4.5.6 Organogermanium Phosphides, Arsenides, Antimonides and Bismuthides.- 4.5.6.1 Organogermanium Phosphides.- 4.5.6.4 Organogermanium Arsenides, Antimonides and Bismuthides.- 5. Organo-Polygermanes.- 5.1 Hexaorganodigermanes.- 5.1.1 Symmetric Derivatives.- 5.1.2 Unsymmetric Hexaorganodigermanes.- 5.2 Organo-Polygermanes Containing Three or More Germanium Atoms.- 5.3 Organo-Polygermanium Hydrides.- 5.4 Organo-Polygermanes Containing Heteroatoms.- 6. Polymetallic Organogermanes.- 6.1 Organogermanium Derivatives with Group IV Metals.- 6.1.1 Organogermanes with Ge-Si Bonds.- 6.1.2 Organogermanes with Ge-Sn Bonds.- 6.1.2.1 Bimetallic Organogermanes with Ge-Sn Bonds.- 6.1.2.2 Polymetallic Organogermanes with Ge-Sn Bonds.- 6.1.2.6 Functionally Substituted Polymetallic Organogermanes with Ge-Sn Bonds.- 6.1.2.6.3 Derivatives with Oxygen.- 6.1.2.6.5 Nitrogen Substituted Organogermyl Tin Compounds.- 6.1.3 Bimetallic Organogermyl Lead Compounds.- 6.2 Organogermanium Derivatives of Group III Metals.- 6.3 Organogermanium Derivatives of Group II Metals.- 6.4 Organogermyl Alkali Metal Compounds.- 6.5 Polymetallic Organogermanium Derivatives with Coordination Compounds of Transition Metals.- 6.5.1 Bimetallic Organogermanium Derivatives of Groups 1, IV and VI Transition Metals.- 6.5.5 Polymetallic Organogermanium Derivatives of Manganese and Rhenium.- 6.5.6 Bimetallic Organogermyl Iron Compounds.- 6.5.7 Bimetallic Organogermanium Derivatives of Cobalt and Iridium.- 6.5.8 Polymetallic Organogermanium Derivatives of Nickel and Homologues.- 7. Cyclic Organogermanes.- 7.1 Cyclic Tetraorganogermanes.- 7.1.1 Unsubstituted Cyclic Tetraorganogermanes.- 7.1.4 Unsaturated Unsubstituted Cyclic Tetraorganogermanes.- 7.1.6 Functionally Substituted Cyclic Tetraorganogermanes.- 7.1.6.1 Cyclic Functionally Substituted Tetraorganogermanes.- 7.1.6.6 Tetraorganogermanes Containing Heteroatoms in the Cyclic System.- 7.3 Cyclic Organogermanium Hydrides.- 7.4 Cyclic Organogermanes Containing Heteroatorn-Germanium Bonds.- 7.4.1 Cyclic Organogermanium Halides.- 7.4.1.1 Cyclic Organogermanium Mohalides.- 7.4.1.2 Cyclic Organogermanium Dihalides.- 7.4.3 Cyclic Organogermanes Containing Germanium Linked to Oxygen, Sulfur and Silicon.- 8. Miscellaneous Organogermanes.- 8.1 Polymerization Reactions.- 8.2 Unspecified Organogermanes.- Tin.- 1. Symmetric Tetraorganotin Compounds.- 1.1 Symmetric Unsubstituted Tetraorganotin Compounds.- 1.4 Symmetric Unsaturated Tetraorganotin Compounds.- 1.6 Symmetric Functionally Substituted Tetraorganotin Compounds.- 2. Unsymmetric Tetraorganotin Compounds.- 2.1 Nonfunctional Unsubstituted Tetraorganotin Compounds.- 2.1.1 Derivatives with Two Different Organic Groups.- 2.1.2 Nonfunctional Unsubstituted Tetraorganotin Compounds with Three and Four Different Organic Groups.- 2.3 Heterocyclic Substituted Tetraorganotin Compounds.- 2.4 Unsymmetric Tetraorganotin Compounds with Olefinic Substituents.- 2.4.1 Unsymmetric Tetraorganotin Compounds Containing Halogen Substituted Olefins.- 2.4.2 Unsymmetric Tetraorganotin Compounds Containing Pseudo-halogen Substituted Olefins.- 2.4.3 Unsymmetric Tetraorganotin Compounds Containing Functionally Substituted Olefins.- 2.5 Unsymmetric Tetraorganotin Compounds with Acetylenic Substituents.- 2.5.1 Unsymmetric Tetraorganotin Compounds Containing Halogen Substituted Acetylenes.- 2.5.3 Unsymmetric Tetraorganotin Compounds Containing Functionally Substituted Acetylenes.- 2.6 Functionally Substituted Unsymmetric Tetraorganotin Compounds.- 2.6.1 Tetraorganotin Compounds Containing Halogen.- 2.6.2 Tetraorganotin Compounds Containing Pseudohalogen Substituents.- 2.6.3 Tetraorganotin Compounds Containing Oxygen.- 2.6.3.1 Organotin Compounds with Hydroxy Groups and Derivatives.- 2.6.3.3 Tetraorganotin Compounds Containing Carbonyl Groups and Derivatives.- 2.6.3.4 Tetraorganotin Compounds Containing Carboxyl Groups and Derivatives.- 2.6.4 Tetraorganotin Compounds Containing Sulfur.- 2.6.5 Tetraorganotin Compounds Containing Nitrogen and Phosphorus.- 2.6.5.4 Tetraorganotin Compounds Containing Antimony.- 2.7 Polymetallic Tetraorganotin Compounds.- 2.7.1 Bridged Polyorganotin Compounds.- 2.7.1.1 Tetraorganotin Compounds with Two Tin Atoms.- 2.7.1.1.1 Nonfunctional Derivatives.- 2.7.1.1.3 Functionally Substituted Bistetraorganotin Compounds.- 2.7.1.2 Tetraorganotin Compounds with Three or More Tin Atoms.- 2.7.2 Tetraorganotin Compounds Containing Organosilicon Substituents.- 2.7.3 Tetraorganotin Compounds Containing Organogermanium Substituents.- 2.7.4 Tetraorganotin Compounds Containing Organolead Substituents.- 2.7.5 Tetraorganotin Compounds with Boron and Aluminum.- 2.7.8 Tetraorganotin Compounds Containing Transition Metals.- 3. Organotin Hydrides.- 3.1 Nonfunctional Organotin Hydrides.- 3.3 Organotin Deuterides.- 3.6 Functionally Substituted Organotin Hydrides.- 3.8 Organotin Hydrides Containing Heteroatom-Tin Bonds.- 4. Organotin Compounds Containing Heteroatom-Tin Bonds.- 4.1 Compounds with Halogen.- 4.1.1 Triorganotin Halides.- 4.1.1.1 Unsubstituted Symmetric Triorganotin Halides.- 4.1.1.2 Unsymmetric Unsubstituted Triorganotin Halides.- 4.1.1.4 Unsaturated Triorganotin Halides.- 4.1.1.6 Functionally Substituted Triorganotin Halides.- 4.1.1.6.1 Derivatives with Halogen.- 4.1.1.6.2 Pseudohalogen Substituted Triorganotin Halides.- 4.1.1.6.3 Oxygen Containing Triorganotin Halides.- 4.1.1.6.5 Nitrogen Substituted Triorganotin Halides.- 4.1.1.6.7 Metal Substituted Triorganotin Halides.- 4.1.2 Diorganotin Dihalides.- 4.1.2.1 Unsubstituted Symmetric Diorganotin Dihalides.- 4.1.2.2 Unsymmetric Unsubstituted Diorganotin Dihalides.- 4.1.2.4 Unsaturated Diorganotin Dihalides.- 4.1.2.6 Functionally Substituted Diorganotin Dihalides.- 4.1.2.6.1 Halogen Substituted Diorganotin Dihalides.- 4.1.2.6.2 Pseudohalogen Substituted Diorganotin Dihalides.- 4.1.2.6.3 Oxygen Substituted Diorganotin Dihalides.- 4.1.2.6.3.1 Compounds Containing an Ether Linkage.- 4.1.2.6.3.3 Diorganotin Dihalides Containing Carbonyl Groups.- 4.1.2.6.3.4 Diorganotin Dihalides Containing Carboxyl Groups and Derivatives.- 4.1.2.9 Diorganotin Dihalides Containing Nitrogen and Boron.- 4.1.3 Organotin Trihalides.- 4.1.3.1 Unsubstituted Organotin Trihalides.- 4.1.3.4 Unsaturated Organotin Trihalides.- 4.1.3.6 Functionally Substituted Organotin Trihalides.- 4.1.4 Organotin Halides with Tin Linked to Anions.- 4.1.5 Organotin Halides Containing Tin-Oxygen Bonds.- 4.1.5.1 Organotin Halides Containing Oxy- or Hydroxy-Groups.- 4.1.5.3 Organotin Halides Containing Alkoxy Groups.- 4.1.5.3.1 Diorganotin Halides Containing Unsubstituted Alkoxy Groups.- 4.1.5.3.6 Organotin Halides Containing Functionally Substituted Groups.- 4.1.5.4 Organotin Halides Containing Acetal Groups.- 4.1.5.5 Diorganotin Halides Containing Carboxyl Groups.- 4.1.6 Organotin Halides Containing Tin-Sulfur Bonds.- 4.1.7 Organotin Halides Containing Tin-Nitrogen Bonds.- 4.1.9 Organotin Halides with Other Heteroatoms.- 4.2 Organotin Salts.- 4.2.1 Organotin Pseudohalides.- 4.2.1.1 Triorganotin Pseudohalides.- 4.2.1.2 Diorganotin Dipseudohalides.- 4.2.1.3 Monoorganotin Tripseudohalides.- 4.2.1.5 Organotin Pseudohalides Containing Tin-Oxygen Bonds.- 4.2.1.5.1 Organotin Pseudohalides Containing Oxy- or Hydroxy-Groups.- 4.2.1.5.3 Organotin Pseudohalides Containing Alkoxy and Acetal Groups.- 4.2.1.6 Organotin Pseudohalides Containing Tin-Sulfur and Tin-Nitrogen Bonds.- 4.2.4 Organotin Salts or Esters of Oxygen Acids.- 4.2.4.1 Triorganotin Salts or Esters of Oxygen Acids.- 4.2.4.2 Diorganotin Salts or Esters of Oxygen Acids.- 4.2.4.3 Monoorganotin Salts or Esters of Oxygen Acids.- 4.2.4.6 Diorganotin Salts or Esters Containing Tin-Heteroatom Bonds.- 4.3 Organotin Oxygen Compounds.- 4.3.1 Organotin Oxides and Hydroxides.- 4.3.1.1 Triorganotin Oxides and Hydroxides.- 4.3.1.1.1 Symmetric Triorganotin Oxides and Hydroxides.- 4.3.1.1.2 Unsymmetric Triorganotin Oxides and Hydroxides.- 4.3.1.1.6 Functionally Substituted Triorganotin Oxides and Hydroxides.- 4.3.1.2 Diorganotin Oxides and Hydroxides.- 4.3.1.2.1 Unsubstituted Diorganotin Oxides and Hydroxides.- 4.3.1.2.6 Functionally Substituted Diorganotin Oxides and Hydroxides.- 4.3.1.3 Monoorganotin Oxides and Hydroxides.- 4.3.1.9 Organotin Oxides and Hydroxides Containing Tin-Heteroatom Bonds.- 4.3.2 Organotin Peroxy Compounds.- 4.3.3 Organotin Alkoxides and Phenoxides.- 4.3.3.1 Triorganotin Alkoxides.- 4.3.3.1.1 Unsubstituted Triorganotin Alkoxides.- 4.3.3.1.3 Triorganotin Alkoxides Derived from Heterocyclic Alcohols.- 4.3.3.1.4 Triorganotin Alkoxides Derived from Unsaturated Alcohols.- 4.3.3.1.6 Triorganotin Alkoxides Derived from Functionally Substituted Alcohols.- 4.3.3.1.6.1 Triorganotin Alkoxides Derived from Halogen Substituted Alcohols.- 4.3.3.1.6.2 Triorganotin Alkoxides Derived from Pseudohalogen Substituted Alcohols.- 4.3.3.1.6.3 Triorganotin Alkoxides Derived from Alcohols Containing Oxygen Functions.- 4.3.3.1.6.5 Triorganotin Alkoxides Derived from Alcohols Containing Nitrogen and Phosphorus.- 4.3.3.1.6.5.9 O-Triorganotin Derivatives of Oximes and Hydroxy lamine s.- 4.3.3.1.6.7 Triorganotin Alkoxides Derived from Organometallic Substituted Alcohols.- 4.3.3.1.6.9 Triorganotin Alkoxides Derived from Polyfunctional Alcohols.- 4.3.3.1.9 Triorganotin Mixed Oxides.- 4.3.3.2 Diorganotin Alkoxides.- 4.3.3.2.1 Unsubstituted Diorganotin Alkoxides.- 4.3.3.2.3 Diorganotin Alkoxides Derived from Heterocyclic Alcohols.- 4.3.3.2.6 Diorganotin Alkoxides Derived from Functionally Substituted Alcohols.- 4.3.3.2.6.1 Alkoxides Derived from Halogen Substituted Alcohols.- 4.3.3.2.6.3 Alkoxides Derived from Alcohols Containing Oxygen Functions.- 4.3.3.2.6.5 Alkoxides Derived from Alcohols Containing Nitrogen.- 4.3.3.2.6.8 Diorganotin Alkoxides Derived from Dihydric Alcohols.- 4.3.3.2.9 Miscellaneous Diorganotin Alkoxides.- 4.3.3.2.9.1 Mixed Diorganotin Oxides.- 4.3.3.2.9.3 Diorganotin Alkoxides Containing Acetal Enol and Car-boxy Groups Linked to Tin.- 4.3.3.2.9.5 Diorganotin Alkoxides Containing Tin-Heteroatom Bonds.- 4.3.3.3 Monoorganotin Trialkoxides and Phenates.- 4.3.3.3.1 Monoorganotin Trialkoxides from Unsubstituted Alcohols.- 4.3.3.3.6 Monoorganotin Alkoxides Derived from Substituted Alcohols.- 4.3.4 O-Organotin Derivatives of Aldehydes and Ketones.- 4.3.4.1 Triorganotin Derivatives of Aldehydes and Ketones.- 4.3.4.1.1 Triorganotin Acetals and Ketals.- 4.3.4.4.3 Triorganotin Enoxides.- 4.3.4.1.4 Triorganotin Derivatives of 1,2- and 1,4-Diketones.- 4.3.4.2 Diorganotin Derivatives of Aldehydes and Ketones.- 4.3.4.3 Monoorganotin Derivatives of Aldehydes and Ketones.- 4.3.5 Organo tin Carboxylates.- 4.3.5.1 Triorganotin Carboxylates.- 4.3.5.1.1 Unsubstituted Triorganotin Carboxylates.- 4.3.5.1.3 Unsubstituted Triorganotin Carboxylates Derived from Heterocyclic Acids.- 4.3.5.1.4 Unsubstituted Triorganotin Carboxylates Derived from Unsaturated Acids.- 4.3.5.1.6 Unsubstituted Triorganotin Carboxylates Derived from Functionally Substituted Acids.- 4.3.5.1.6.1 Unsubstituted Triorganotin Carboxylates Derived from Halogen Substituted Acids.- 4.3.5.1.6.3 Unsubstituted Triorganotin Carboxylates Derived from Oxygen and Sulfur Containing Acids.- 4.3.5.1.6.5 Unsubstituted Triorganotin Carboxylates Derived from Acids Containing Nitrogen.- 4.3.5.1.6.7 Unsubstituted Triorganotin Carboxylates Derived from Metal Substituted Acids.- 4.3.5.1.6.8 Unsubstituted Triorganotin Carboxylates Derived from Polyfunctional Acids.- 4.3.5.1.6.8.1 Bis(triorganotin) Derivatives of Dicarboxylic Acids.- 4.3.5.1.6.8.3 Poly(triorganotin) Derivatives of Polycarboxylic Acids.- 4.3.5.1.6.8.4 Unsubstituted Triorganotin Derivatives of Polyfunctional Carboxylic Acids.- 4.3.5.1.9 Unsymmetric and Functionally Substituted Triorganotin Carboxylates.- 4.3.5.2 Diorganotin Carboxylates.- 4.3.5.2.1 Unsubstituted Diorganotin Dicarboxylates.- 4.3.5.2.2 Unsubstituted Diorganotin Carboxylate Oxides and Hydroxides.- 4.3.5.2.3 Unsubstituted Diorganotin Carboxylates of Heterocyclic and Unsaturated Acids.- 4.3.5.2.6 Unsubstituted Diorganotin Carboxylates Derived from Functionally Substituted Acids.- 4.3.5.2.6.1 Diorganotin Carboxylates of Halogen Substituted Acids.- 4.3.5.2.6.3 Unsubstituted Diorganotin Carboxylates Derived from Acids Containing Oxygen and Sulfur.- 4.3.5.2.6.5 Unsubstituted Diorganotin Carboxylates Derived from Nitrogen Containing Acids.- 4.3.5.2.6.7 Unsubstituted Diorganotin Carboxylates Derived from Polyfunctional and Metal Substituted Acids.- 4.3.5.2.6.8 Unsubstituted Diorganotin Carboxylates with Polycarboxylic Acids.- 4.3.5.2.6.8.1 Unsubstituted Diorganotin Carboxylates Derived from Unsubstituted Dicarboxylic Acids.- 4.3.5.2.6.8.2 Unsubstituted Diorganotin Dicarboxylates Derived from Functionally Substituted Polycarboxylic Acids.- 4.3.5.2.8 Functionally Substituted and Miscellaneous Diorganotin Carboxylates.- 4.3.5.2.9 Diorganotin Carboxylates Containing Tin-Sulfur and Tin-Nitrogen Bonds.- 4.3.5.3 Monoorgano tin Carboxylates.- 4.4 Organo tin Compounds with Sulfur, Selenium and Tellurium.- 4.4.1 Organotin Sulfides, Selenides and Tellurides.- 4.4.1.1 Triorganotin Sulfides, Selenides and Tellurides.- 4.4.1.2 Diorganotin Sulfides, Selenides and Tellurides.- 4.4.1.3 Monoorganotin Sulfides, Selenides and Tellurides.- 4.4.2 Organotin Mercaptides and Organoselenides.- 4.4.2.1 Triorganotin Mercap tides and Selenides.- 4.4.2.1.1 Unsubstituted Triorganotin Mercaptides and Selenides.- 4.4.2.1.3 Heterocyclic Substituted Triorganotin Mercaptides.- 4.4.2.1.6 Functionally Substituted Triorganotin Mercaptides.- 4.4.2.2 Diorganotin Dimercaptides and Diorganoselenides.- 4.4.2.2.1 Unsubstituted Diorganotin Dimercaptides and Diorganoselenides.- 4.4.2.2.3 Heterocyclic Substituted Diorganotin Dimercaptides.- 4.4.2.2.6 Functionally Substituted Diorganotin Dimercaptides.- 4.4.2.3 Monoorganotin Trimercaptides.- 4.4.2.9 Organotin Sulfur Compounds Containing Tin-Heteroatom Bonds.- 4.4.4 Organotin Thiocarboxylates, Xanthates, Thiamides and Thiocarbamates.- 4.4.4.1 Triorganotin Thiocarboxylates, Xanthates, Thiamides and Thiocarbamates.- 4.4.4.2 Diorganottn Thiocarboxylates, Xanthates, Thiamides and Thiocarbamates.- 4.4.7 Metal Substituted Organotin Sulfides, Selenides and Tellurides.- 4.5 Organotin Compounds with Nitrogen, Phosphorus, Arsenic, Antimony and Bismuth.- 4.5.1 Unsubstituted Organotin Amides, Imides and Nitrides.- 4.5.1.1 Triorganotin Derivatives.- 4.5.1.2 Unsubstituted Diorganotin Amides and Imides.- 4.5.1.3 Unsubstituted Monoorganotin Triamides.- 4.5.2 Substituted Organotin Amides.- 4.5.2.1 Organotin Derivatives of Heterocyclic Amines.- 4.5.2.4 Organotin Derivatives of Amidines, Imides, Hydrazine and Triazene.- 4.5.2.7 Organotin Derivatives of Nitramine.- 4.5.2.8 Organotin Derivatives of Keteneimine.- 4.5.3 Organotin Derivatives of Acid Amides and Acid Imides.- 4.5.3.1 Organotin Derivatives of Amides and Imides of Carboxylic Acids.- 4.5.3.2 N-Organotincarbamates.- 4.4.5.3.3 Organotin Derivatives of Urea.- 4.5.3.6 Organotin Amides and Imides of Acids of Sulfur.- 4.5.4 Organotin Metal Imides.- 4.5.5 Organotin Phosphorus Imides.- 4.5.6 Organotin Phosphides, Arsenides, Antimonides and Bismuthides.- 4.5.6.1 Organotin Phosphides.- 4.5.6.4 Organotin Arsenides, Antimonides and Bismuthides.- 5. Organo-Polytin Compounds.- 5.1 Hexaorganoditin Compounds.- 5.1.1 Symmetric Hexaorganoditin Compounds.- 5.1.2 Unsymmetric Hexaorganoditin Compounds.- 5.2 Organo-Polytin Compounds Containing Three or More Tin Atoms.- 5.2.1 Organo-Polytin Compounds with R2n+2Snn Structure.- 5.2.1.1 Octaorganotritin Compounds.- 5.2.1.4 Organo-Polytin Compounds Containing Four or More Tin Atoms.- 5.2.2 Organo-Polytin Compounds with (R2Sn)x Structure.- 5.2.4 Organo-Polytin Compounds with (RSn)x Composition.- 5.4 Organo-Polytin Compounds.- 6. Polymetallic Organotin Compounds.- 6.1 Bimetallic Organotin Compounds with Group IV Metals.- 6.1.1 Organotin Compounds with Sn-Si Bonds.- 6.1.2 Organotin Compounds with Sn-Ge Bonds.- 6.1.3 Organotin Compounds with Sn-Pb Bonds.- 6.2 Bimetallic Organotin Compounds with Group III Metals.- 6.3 Bimetallic Organotin Magnesium Compounds.- 6.4 Bimetallic Organotin Alkali Metal Compounds.- 6.5 Bimetallic Organotin Derivatives of Transition Metal Coordination Compounds.- 6.5.1 Organotin Compounds with Group I-V Metals.- 6.5.4 Organotin Compounds with Group VI Metals.- 6.5.5 Organotin Compounds with Group VII Metals.- 6.5.6 Organotin Compounds with Iron and Ruthenium.- 6.5.7 Organotin Compounds with Cobalt Rhodium and Iridium.- 6.5.8 Organotin Compounds with Nickel and Platinum.- 6.6 Polymetallic Organotin Transition Metal Complexes.- 7. Cyclic Organotin Compounds.- 7.1 Cyclic Tetraorganotin Compounds.- 7.1.1 Unsubstituted Cyclic Tetraorganotin Compounds.- 7.1.4 Unsaturated Cyclic Tetraorganotin Compounds.- 7.1.6 Functionally Substituted Cyclic Tetraorganotin Compounds.- 7.3 Cyclic Organotin Compounds Containing Heteroatom Tin Bonds.- 8. Miscellaneous Organotin Compounds.- 8.1 Polymerization Reactions with Organotin Compounds.- 8.2 Unspecified Organotin Compounds.- 9. Commercial Application of Organotin Compounds.- Lead.- 1. Symmetric Tetraorganolead Compounds.- 1.1 Unsubstituted Derivatives.- 1.3 Tetraheterocyclic Organolead Compounds.- 1.4 Symmetric Unsaturated Tetraorganolead Compounds.- 1.6 Symmetric Functionally Substituted Tetraorganolead Compounds.- 2. Unsymmetric Tetraorganolead Compounds.- 2.1 Nonfunctional Derivatives.- 2.3 Heterocyclic Substituted Tetraorganolead Compounds.- 2.4 Tetraorganolead Compounds with Olefinic Substituents.- 2.5 Tetraorganolead Compounds with Acetylenic Substituents.- 2.6 Functionally Substituted Tetraorganolead Compounds.- 2.6.1 Tetraorganolead Compounds Containing Halogen.- 2.6.3 Tetraorganolead Compounds Containing Oxygen and Sulfur.- 2.6.5 Tetraorganolead Compounds Containing Nitrogen and Phosphorus.- 2.7 Polymetallic Tetraorganolead Compounds.- 3. Organolead Hydrides.- 4. Organolead Compounds Containing Heteroatorn-Lead Bonds.- 4.1. Organolead Halides.- 4.1.1 Triorganolead Halides.- 4.1.2 Diorganolead Dihalides.- 4.1.3 Mónoorganolead Trihalides.- 4.2 Organolead Salts.- 4.2.1 Organolead Pseudohalides.- 4.2.4 Organolead Salts or Esters of Oxygen Acids.- 4.3 Organolead Oxygen Compounds.- 4.3.1 Organolead Oxides and Hydroxides.- 4.3.2 Organolead Peroxides.- 4.3.3 Organolead Alkoxides.- 4.3.3.1 Unsubstituted Organolead Alkoxides.- 4.3.3.4 Substituted Organolead Alkoxides.- 4.3.3.8 Organolead Mixed Oxides.- 4.3.3.9 Multifunctional Organolead Alkoxides.- 4.3.4 Organolead Halfacetals and Derivatives of Diketones.- 4.3.5 Organolead Carboxylates.- 4.3.5.1 Triorganolead Carboxylates.- 4.3.5.1.1 Unsubstituted Triorganolead Carboxylates.- 4.3.5.1.3 Triorganolead Carboxylates Derived from Heterocyclic Acids.- 4.3.5.1.4 Unsaturated Tri organo lead Carboxylates.- 4.3.5.1.6 Functionally Substituted Triorganolead Carboxylates.- 4.4.5.2 Diorganolead Dicarboxylates.- 4.3.5.2.1 Unsubstituted Diorganolead Dicarboxylates.- 4.3.5.2.2 Substituted Diorganolead Dicarboxylates.- 4.3.5.3 Monoorganolead Tricarboxylates.- 4.3.5.9 Basic Organolead Carboxylates.- 4.4 Organolead Compounds with Sulfur, Selenium and Tellurium.- 4.4.1 Organolead Sulfides, Selenides and Tellurides.- 4.4.2 Organolead Mercaptides, Organoselenides and Organotellurides.- 4.4.2.1 Unsubstituted Organolead Mercaptides and Organotellurides.- 4.4.2.4 Substituted Organolead Mercaptides.- 4.4.4 Organolead Derivatives of Organic Thioacids.- 4.4.7 Metal Substituted Organolead Sulfides, Selenides and Tellurides.- 4.5 Organolead Derivatives of Nitrogen, Phosphorus, Arsenic and Antimony.- 4.5.1 Unsubstituted Organolead Amides.- 4.5.2 Organolead Compounds with Substituted Amines.- 4.5.2.1 Organolead Derivatives of Heterocyclic Amines.- 4.5.2.4 Organolead Derivatives of Amidine, Imidine and Ketimide.- 4.5.3 Organolead Derivatives of Acid Amides and Acid Imides.- 4.5.4 Organolead Metal Imides.- 4.5.5 Organolead Phosphorus Imides.- 4.5.6 Organolead Phosphides, Arsenides and Antimonides.- 5. Organo-Polylead Compounds.- 5.1 Hexaorganodilead Compounds.- 5.2 Organolead Compounds with Less Than Three Organic Groups per Lead Atom.- 6. Polymetallic Organolead Compounds.- 6.1 Organolead Derivatives of Group I-IV Metals.- 6.5 Polymetallic Organolead Derivatives of Transition Metal Coordination Compounds.- 6.5.1 Bimetallic Organolead Compounds with Group I–VI Metals.- 6.5.5 Polymetallic Organolead Compounds with Manganese and Rhenium.- 6.5.6 Bimetallic Organolead Compounds with Group VIII Metals.- 7. Cyclic Organolead Compounds.- 8. Miscellaneous Organolead Compounds.- 8.1 Polymerization Reactions with Organolead Compounds.- 8.2 Unspecified Organolead Compounds.- Review Publications and Monographs.