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Preparative Radiation Chemistry of Transition Metal Complexes; Radiosynthese de complexes de metaux de transition; Radiatsionno-khimicheskij sintez kompleksnykh soedinenij perekhodnykh metallov; Radiosintesis de complejos de los metales de transicion

Conference:

Abstract

{pi}-complexes and carbonyl compounds of transition metals have a technical importance because of their special reactivity and catalytic activity. The following investigations have been made by us: 1. Radiation chemical synthesis of transition metal {pi}- complexes Examples are the preparation of maleic-acid-anhydride-iron-tetracarbonyl, fumaric-acid-dimethylesteriron- tetracarbonyl, methacrylic-acid-methylester-iron-tetracarbonyl, vinylacetate-iron-tetiacarbonyl, etc. by Co{sup 60} {gamma}-irradiation of Fe(CO){sub 5} and the corresponding unsaturated compounds. 2. Chemical reactions with radiation-chemically formed {pi}-complexes Examples are the polymerization of vinyl compounds at room temperature by the action of organic halogen compounds on complexes such as methacryl-acid-methylester-iron-tetracarbonyl, vinylacetate-iron- tetracarbonyl, etc. 3. Synthesis of {pi}-complexes and carbonyl compounds of transition metals by irradiation Examples are the Co{sup 60} {gamma}-irradiation of [(C{sub 5}H{sub 5}){sub 2}Fe], [(C{sub 5}H{sub 5}){sub 2N}i], CH{sub 3}C{sub 5}H{sub 4}Mn(CO){sub 3}, (C{sub 5}H{sub 5})TiCl{sub 2},Fe(CO){sub 5}, Ni(CO){sub 4} , in halogen hydrocarbons. (author) [French] Les complexes {pi} et les composes carbonyles des metaux de transition ont une importance du point de vue technique en raison de leur reactivite speciale et de leur activite catalytique. L'auteur a fait des experiences sur les questions suivantes: 1. Radiosynthese de complexes {pi} de metaux de transition. Exemple: preparation d'anhydride maleique-fer tetracarbonyle, de fumarate de dimethyle-fer tetracarbonyle, de methacrylate de methyle-fer tetracarbonyl, d'acetate  More>>
Authors:
Gustorf, E. Koerner Von; Jun, M. -J.; Koller, H.; Schenck, G. O. [1] 
  1. Max-Planck-Institut fuer Kohlenforschung, Abteilung Strahlenchemie, Muelheim-Ruhr, Federal Republic of Germany (Germany)
Publication Date:
Nov 15, 1963
Product Type:
Conference
Resource Relation:
Conference: Conference on the Application of Large Radiation Sources in Industry, Salzburg (Austria), 27-31 May 1963; Other Information: 1 fig., 3 tabs., 26 refs.; Related Information: In: Industrial Uses of Large Radiation Sources. Proceedings of a Conference on the Application of Large Radiation Sources in Industry. Vol. II| 344 p.
Subject:
37 INORGANIC, ORGANIC, PHYSICAL AND ANALYTICAL CHEMISTRY; CARBON MONOXIDE; CARBONYLS; COBALT 60; COMPLEXES; FUMARIC ACID; HYDROCARBONS; IRON; IRRADIATION; MALEIC ACID; METHACRYLIC ACID; ORGANIC HALOGEN COMPOUNDS; POLYMERIZATION; SYNTHESIS; TITANIUM CHLORIDES
OSTI ID:
22108173
Research Organizations:
International Atomic Energy Agency, Vienna (Austria)
Country of Origin:
IAEA
Language:
English
Other Identifying Numbers:
Other: ISSN 0074-1884; TRN: XA13R0361065984
Submitting Site:
INIS
Size:
page(s) 73-84
Announcement Date:
Jun 27, 2013

Conference:

Citation Formats

Gustorf, E. Koerner Von, Jun, M. -J., Koller, H., and Schenck, G. O. Preparative Radiation Chemistry of Transition Metal Complexes; Radiosynthese de complexes de metaux de transition; Radiatsionno-khimicheskij sintez kompleksnykh soedinenij perekhodnykh metallov; Radiosintesis de complejos de los metales de transicion. IAEA: N. p., 1963. Web.
Gustorf, E. Koerner Von, Jun, M. -J., Koller, H., & Schenck, G. O. Preparative Radiation Chemistry of Transition Metal Complexes; Radiosynthese de complexes de metaux de transition; Radiatsionno-khimicheskij sintez kompleksnykh soedinenij perekhodnykh metallov; Radiosintesis de complejos de los metales de transicion. IAEA.
Gustorf, E. Koerner Von, Jun, M. -J., Koller, H., and Schenck, G. O. 1963. "Preparative Radiation Chemistry of Transition Metal Complexes; Radiosynthese de complexes de metaux de transition; Radiatsionno-khimicheskij sintez kompleksnykh soedinenij perekhodnykh metallov; Radiosintesis de complejos de los metales de transicion." IAEA.
@misc{etde_22108173,
title = {Preparative Radiation Chemistry of Transition Metal Complexes; Radiosynthese de complexes de metaux de transition; Radiatsionno-khimicheskij sintez kompleksnykh soedinenij perekhodnykh metallov; Radiosintesis de complejos de los metales de transicion}
author = {Gustorf, E. Koerner Von, Jun, M. -J., Koller, H., and Schenck, G. O.}
abstractNote = {{pi}-complexes and carbonyl compounds of transition metals have a technical importance because of their special reactivity and catalytic activity. The following investigations have been made by us: 1. Radiation chemical synthesis of transition metal {pi}- complexes Examples are the preparation of maleic-acid-anhydride-iron-tetracarbonyl, fumaric-acid-dimethylesteriron- tetracarbonyl, methacrylic-acid-methylester-iron-tetracarbonyl, vinylacetate-iron-tetiacarbonyl, etc. by Co{sup 60} {gamma}-irradiation of Fe(CO){sub 5} and the corresponding unsaturated compounds. 2. Chemical reactions with radiation-chemically formed {pi}-complexes Examples are the polymerization of vinyl compounds at room temperature by the action of organic halogen compounds on complexes such as methacryl-acid-methylester-iron-tetracarbonyl, vinylacetate-iron- tetracarbonyl, etc. 3. Synthesis of {pi}-complexes and carbonyl compounds of transition metals by irradiation Examples are the Co{sup 60} {gamma}-irradiation of [(C{sub 5}H{sub 5}){sub 2}Fe], [(C{sub 5}H{sub 5}){sub 2N}i], CH{sub 3}C{sub 5}H{sub 4}Mn(CO){sub 3}, (C{sub 5}H{sub 5})TiCl{sub 2},Fe(CO){sub 5}, Ni(CO){sub 4} , in halogen hydrocarbons. (author) [French] Les complexes {pi} et les composes carbonyles des metaux de transition ont une importance du point de vue technique en raison de leur reactivite speciale et de leur activite catalytique. L'auteur a fait des experiences sur les questions suivantes: 1. Radiosynthese de complexes {pi} de metaux de transition. Exemple: preparation d'anhydride maleique-fer tetracarbonyle, de fumarate de dimethyle-fer tetracarbonyle, de methacrylate de methyle-fer tetracarbonyl, d'acetate de vinyle-fer tetracarbonyle, etc., par exposition de Fe(CO){sub 5} et des composes non satures correspondant aux rayons gamma du cobalt-60. 2. Reactions chimiques avec des complexes n formes par voie radiochimique. Exemple: polymerisation de composes vinyliques a temperature ambiante en presence de composes organiques halogenes et de methacrylate de methyie-fer tetracarbonyle, d'acetate de vinyle-fer tetracarbonyle, etc. 3. Radiosynthese de complexes {pi} et de composes carbonyles de metaux de transition. Exemple: exposition aux rayons gamma du cobalt-60 de [(C{sub 5}H{sub 5}){sub 2}Fe], [(C{sub 5}H{sub 5})2Ni], CH{sub 3}C{sub 5}H{sub 4}Mn(CO){sub 3}, (C{sub 5}H{sub 5}){sub 2}TiCl{sub 2}, Fe(CO){sub 5} et Ni(CO){sub 4} dans des hydrocarbures halogenes. (author) [Spanish] Los complejos {pi} y los compuestos carbonilo de los metales de transicion han adquirido cierta importancia tecnica en virtud de su reactividad especial y de su actividad catalitica. El autor ha llevado a cabo las siguientes investigaciones: 1. Radiointesis de complejos {pi} de metales de transicion. Como ejemplos, puede citarse la preparacion de los complejos anhidrido maleico-hierro tetracarbonilo; fumarato de dimetilo-hierro tetracarbonilo; metacrilato de metilo-hierro tetracarbonilo; acetato de vinilo-hierro tetracarbonilo, etc., por exposicion del Fe(CO){sub 5} y de los compuestos no saturados correspondientes a los rayos gamma del {sup 60}Co. 2. Reacciones quimicas con complejos {pi} formados por via radioquimica. Ejemplos: la polimerizacion de compuestos vinilicos a temperatura ambiente por accion de los compuestos organicos halogenados sobre complejos tales como el metacrilato de metilo-hierro tetracarbonilo, el acetato de vinilo-hierro tetracarbonilo, etc. 3. Radiosintesis de complejos {pi} y compuestos carbonilo de los metales de transicion. Como ejemplos, puede mencionarse la exposicion [(C{sub 5}H{sub 5}){sub 2}Fe], [(C{sub 5}H{sub 5}){sub 2}Ni], CH{sub 3}C{sub 5}H{sub 4}Mn(CO){sub 3}, (C{sub 5}H{sub 5}){sub 2}TiCl{sub 2}, Fe(CO){sub 5}, Ni(CO){sub 4} disueltos en hidrocarburos halogenados, a los rayos gamma del {sup 60}Co. (author) [Russian] {pi}-kompleksy i karbonil'nye' soedineniya perekhodnykh metallov imeyut bol'shoe znachenie v tekhnike iz-za ikh vysokoj reaktsionnoj sposobnosti i kataliticheskoj aktivnosti. Provedeny sleduyushchie issledovaniya: 1) Radiatsionno-khimicheskij sintez {pi}-kompleksov metallov peremennoj valentnosti. Primerom mozhet sluzhit' poluchenie kompleksov angidrid maleinovoj kisloty + tetrakarbonil zheleza, diametilovyj ehfir fumarovoj kisloty + tetrakarbonil zheleza, metilovyj ehfir metakrilovoj kisloty + tetrakarbonil zheleza, vinilatsetat + tetrakarbonil zheleza i t.d. pri gamma-obluchenii ot kobal'tovogo istochnika Fe(CO){sub 5} s sootvetstvuyushchimi nenasyshchennymi soedineniyami. 2) Khimicheskie reaktsii v sluchae {pi}-kompleksov, poluchennykh pri radiatsionno-khimicheskom sinteze. Primerom mozhet sluzhit' polimerizatsiya vinilovykh soedinenij pri komnatnoj temperature pod dejstviem organicheskikh galogenovykh soedinenij na takie kompleksy, kak metilovyj ehfir metakrilovoj kisloty - tetrakarbonil zheleza, vinilatsetat - tetrakarbonil zheleza i t.d. 3) Sintez {pi}-kompleksov i karbonil'nykh soedinenij metallov peremennoj valentnosti pri obluchenii. Primerom mozhet sluzhit' gamma-obluchenie ot istochnika Co{sup 60} v srede galogenovykh uglevodorodov sleduyushchikh {pi}-kompleksov: [(C{sub 5}H{sub 5}) Fe], [(C{sub 5}H{sub 5}){sub 2}Ni], CH{sub 3}C{sub 5}H{sub 4}Mn(CO){sub 3}, (C{sub 5}H{sub 5})TiCl{sub 2}, Fe(CO){sub 5}, Ni(CO){sub 4}.}
place = {IAEA}
year = {1963}
month = {Nov}
}