Abstract
Molten salts are suitable solvents for biphasic catalysis: melting butyl-1 methyl-3 imidazolium chloride and aluminium chloride gives a polar and aprotic ionic liquid which is not miscible with hydrocarbons but dissolves organometallic complexes. Two types of complexes have been tested in molten salts with ethyl-aluminium dichloride: zirconium complexes to synthesize light {alpha} olefins from ethene; mono-imido complexes of tungsten VI (Cl{sub 4}W = NAr) to dimerize ethene in but-1 ene and propene in dimethyl-2,3-but-1-ene. For both of these complexes, biphasic catalysis principle is always respected: the active species is present only in the ionic phase and not in the organic phase. The first complexes, biphasic principle is always respected: the active species is present only in the ionic phase and not in the organic phase. The first complexes oligomerize ethene in molten salts with low activity and the {alpha} olefins selectivity is weak. Mono-imido complexes of tungsten VI are proved to be equivalent to the systems composed with WCl{sub 6} and aniline, and they dimerize ethene in but-1 ene and propene in dimethyl-2,3-but-1 ene more efficiently in organic medium than in ionic liquid. The characterization of the active species of the system Cl{sub 4}W=NAr / EtAlCl{sub 2} shows that it
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Citation Formats
Laurent-Gerot, P.
Olefins transformation catalysis by zirconium and tungsten complexes in organic and non-aqueous ionic media; Catalyse de transformation des olefines par les complexes du zirconium et du tungstene en milieux organique et ionique non aqueux.
France: N. p.,
1997.
Web.
Laurent-Gerot, P.
Olefins transformation catalysis by zirconium and tungsten complexes in organic and non-aqueous ionic media; Catalyse de transformation des olefines par les complexes du zirconium et du tungstene en milieux organique et ionique non aqueux.
France.
Laurent-Gerot, P.
1997.
"Olefins transformation catalysis by zirconium and tungsten complexes in organic and non-aqueous ionic media; Catalyse de transformation des olefines par les complexes du zirconium et du tungstene en milieux organique et ionique non aqueux."
France.
@misc{etde_623686,
title = {Olefins transformation catalysis by zirconium and tungsten complexes in organic and non-aqueous ionic media; Catalyse de transformation des olefines par les complexes du zirconium et du tungstene en milieux organique et ionique non aqueux}
author = {Laurent-Gerot, P}
abstractNote = {Molten salts are suitable solvents for biphasic catalysis: melting butyl-1 methyl-3 imidazolium chloride and aluminium chloride gives a polar and aprotic ionic liquid which is not miscible with hydrocarbons but dissolves organometallic complexes. Two types of complexes have been tested in molten salts with ethyl-aluminium dichloride: zirconium complexes to synthesize light {alpha} olefins from ethene; mono-imido complexes of tungsten VI (Cl{sub 4}W = NAr) to dimerize ethene in but-1 ene and propene in dimethyl-2,3-but-1-ene. For both of these complexes, biphasic catalysis principle is always respected: the active species is present only in the ionic phase and not in the organic phase. The first complexes, biphasic principle is always respected: the active species is present only in the ionic phase and not in the organic phase. The first complexes oligomerize ethene in molten salts with low activity and the {alpha} olefins selectivity is weak. Mono-imido complexes of tungsten VI are proved to be equivalent to the systems composed with WCl{sub 6} and aniline, and they dimerize ethene in but-1 ene and propene in dimethyl-2,3-but-1 ene more efficiently in organic medium than in ionic liquid. The characterization of the active species of the system Cl{sub 4}W=NAr / EtAlCl{sub 2} shows that it is the corresponding mono-imido complex of tungsten 4. (author) 129 refs.}
place = {France}
year = {1997}
month = {Jun}
}
title = {Olefins transformation catalysis by zirconium and tungsten complexes in organic and non-aqueous ionic media; Catalyse de transformation des olefines par les complexes du zirconium et du tungstene en milieux organique et ionique non aqueux}
author = {Laurent-Gerot, P}
abstractNote = {Molten salts are suitable solvents for biphasic catalysis: melting butyl-1 methyl-3 imidazolium chloride and aluminium chloride gives a polar and aprotic ionic liquid which is not miscible with hydrocarbons but dissolves organometallic complexes. Two types of complexes have been tested in molten salts with ethyl-aluminium dichloride: zirconium complexes to synthesize light {alpha} olefins from ethene; mono-imido complexes of tungsten VI (Cl{sub 4}W = NAr) to dimerize ethene in but-1 ene and propene in dimethyl-2,3-but-1-ene. For both of these complexes, biphasic catalysis principle is always respected: the active species is present only in the ionic phase and not in the organic phase. The first complexes, biphasic principle is always respected: the active species is present only in the ionic phase and not in the organic phase. The first complexes oligomerize ethene in molten salts with low activity and the {alpha} olefins selectivity is weak. Mono-imido complexes of tungsten VI are proved to be equivalent to the systems composed with WCl{sub 6} and aniline, and they dimerize ethene in but-1 ene and propene in dimethyl-2,3-but-1 ene more efficiently in organic medium than in ionic liquid. The characterization of the active species of the system Cl{sub 4}W=NAr / EtAlCl{sub 2} shows that it is the corresponding mono-imido complex of tungsten 4. (author) 129 refs.}
place = {France}
year = {1997}
month = {Jun}
}