(Diphosphane monosulfide)platinum(II) Complexes for Hydroformylation Reactions: Their Catalytic Activity and a High-Pressure NMR Mechanistic Study

The neutral complexes of formula [κ2P,S‐(dppmS)Pt(CH3)(Cl)] (1), [κ2P,S‐(dppeS)Pt(CH3)(Cl)] (2) and [κ2P,S‐(dpppS)Pt(CH3)(Cl)] (3) [dppmS = Ph2PCH2P(S)Ph2; dppeS = Ph2P(CH2)2P(S)Ph2; dpppS = Ph2P(CH2)3P(S)Ph2] are active catalyst precursors for the hydroformylation of 1‐octene in methyl isobutyl ket...

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Published in:European Journal of Inorganic Chemistry 2006-06, Vol.2006 (11), p.2268-2276
Main Authors: Lofù, Antonio, Mastrorilli, Piero, Nobile, Cosimo F., Suranna, Gian P., Frediani, Piero, Iggo, Jonathan
Format: Article
Language:English
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Heteroditopic ligands
Hydroformylation
NMR spectroscopy
P,S ligands
Platinum
S ligands
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cited_by cdi_FETCH-LOGICAL-c3276-4fafce52c97c77adf415ba3ad63dbe236c0c7b72e8eaaba4f1a86c22c57cbb7e3
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container_issue 11
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container_title European Journal of Inorganic Chemistry
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creator Lofù, Antonio
Mastrorilli, Piero
Nobile, Cosimo F.
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Frediani, Piero
Iggo, Jonathan
description The neutral complexes of formula [κ2P,S‐(dppmS)Pt(CH3)(Cl)] (1), [κ2P,S‐(dppeS)Pt(CH3)(Cl)] (2) and [κ2P,S‐(dpppS)Pt(CH3)(Cl)] (3) [dppmS = Ph2PCH2P(S)Ph2; dppeS = Ph2P(CH2)2P(S)Ph2; dpppS = Ph2P(CH2)3P(S)Ph2] are active catalyst precursors for the hydroformylation of 1‐octene in methyl isobutyl ketone. The order of reactivity found is3 > 2 > 1. Surprisingly, the cationic complexes [κ2P,S‐(dppeS)Pt(CH3)(CH3CN)]BF4 (4a) and [{κP,μ‐κS‐(dppeS)Pt(CH3)}2][BF4]2 (5) are less active than the analogous neutral complex 2. High‐pressure NMR studies revealed that, at 20 °C under 1 to 50 bar of syngas, and in the presence of SnCl2, both 2 and 4a react immediately to form the same acetyl complex (8). However, in the absence of SnCl2, the methyl carbonyl complex [κ2P,S‐(dppeS)Pt(CH3)(CO)]+ (9), which is formed from 4a and CO, does not undergo insertion to give the acetyl complex, even under 50 bar of syngas. Thus, the role of SnCl2 is not only to create a vacant site for CO coordination and to lower the energy barrier for the hydrogenolysis, but also to assist migration of the alkyl group in the CO insertion step. High‐pressure NMR studies of the working reaction solution, under steady‐state conditions, found no evidence for intermediates in which the phosphane sulfide group shows hemilabile behaviour during catalysis. (© Wiley‐VCH Verlag GmbH & Co. KGaA, 69451 Weinheim, Germany, 2006)
doi_str_mv 10.1002/ejic.200501016
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The order of reactivity found is3 &gt; 2 &gt; 1. Surprisingly, the cationic complexes [κ2P,S‐(dppeS)Pt(CH3)(CH3CN)]BF4 (4a) and [{κP,μ‐κS‐(dppeS)Pt(CH3)}2][BF4]2 (5) are less active than the analogous neutral complex 2. High‐pressure NMR studies revealed that, at 20 °C under 1 to 50 bar of syngas, and in the presence of SnCl2, both 2 and 4a react immediately to form the same acetyl complex (8). However, in the absence of SnCl2, the methyl carbonyl complex [κ2P,S‐(dppeS)Pt(CH3)(CO)]+ (9), which is formed from 4a and CO, does not undergo insertion to give the acetyl complex, even under 50 bar of syngas. Thus, the role of SnCl2 is not only to create a vacant site for CO coordination and to lower the energy barrier for the hydrogenolysis, but also to assist migration of the alkyl group in the CO insertion step. High‐pressure NMR studies of the working reaction solution, under steady‐state conditions, found no evidence for intermediates in which the phosphane sulfide group shows hemilabile behaviour during catalysis. (© Wiley‐VCH Verlag GmbH &amp; Co. KGaA, 69451 Weinheim, Germany, 2006)</description><identifier>ISSN: 1434-1948</identifier><identifier>EISSN: 1099-0682</identifier><identifier>DOI: 10.1002/ejic.200501016</identifier><language>eng</language><publisher>Weinheim: WILEY-VCH Verlag</publisher><subject>Heteroditopic ligands ; Hydroformylation ; NMR spectroscopy ; P,S ligands ; Platinum ; S ligands</subject><ispartof>European Journal of Inorganic Chemistry, 2006-06, Vol.2006 (11), p.2268-2276</ispartof><rights>Copyright © 2006 WILEY‐VCH Verlag GmbH &amp; Co. 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J. Inorg. Chem</addtitle><description>The neutral complexes of formula [κ2P,S‐(dppmS)Pt(CH3)(Cl)] (1), [κ2P,S‐(dppeS)Pt(CH3)(Cl)] (2) and [κ2P,S‐(dpppS)Pt(CH3)(Cl)] (3) [dppmS = Ph2PCH2P(S)Ph2; dppeS = Ph2P(CH2)2P(S)Ph2; dpppS = Ph2P(CH2)3P(S)Ph2] are active catalyst precursors for the hydroformylation of 1‐octene in methyl isobutyl ketone. The order of reactivity found is3 &gt; 2 &gt; 1. Surprisingly, the cationic complexes [κ2P,S‐(dppeS)Pt(CH3)(CH3CN)]BF4 (4a) and [{κP,μ‐κS‐(dppeS)Pt(CH3)}2][BF4]2 (5) are less active than the analogous neutral complex 2. High‐pressure NMR studies revealed that, at 20 °C under 1 to 50 bar of syngas, and in the presence of SnCl2, both 2 and 4a react immediately to form the same acetyl complex (8). However, in the absence of SnCl2, the methyl carbonyl complex [κ2P,S‐(dppeS)Pt(CH3)(CO)]+ (9), which is formed from 4a and CO, does not undergo insertion to give the acetyl complex, even under 50 bar of syngas. Thus, the role of SnCl2 is not only to create a vacant site for CO coordination and to lower the energy barrier for the hydrogenolysis, but also to assist migration of the alkyl group in the CO insertion step. High‐pressure NMR studies of the working reaction solution, under steady‐state conditions, found no evidence for intermediates in which the phosphane sulfide group shows hemilabile behaviour during catalysis. (© Wiley‐VCH Verlag GmbH &amp; Co. 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J. Inorg. Chem</addtitle><date>2006-06</date><risdate>2006</risdate><volume>2006</volume><issue>11</issue><spage>2268</spage><epage>2276</epage><pages>2268-2276</pages><issn>1434-1948</issn><eissn>1099-0682</eissn><abstract>The neutral complexes of formula [κ2P,S‐(dppmS)Pt(CH3)(Cl)] (1), [κ2P,S‐(dppeS)Pt(CH3)(Cl)] (2) and [κ2P,S‐(dpppS)Pt(CH3)(Cl)] (3) [dppmS = Ph2PCH2P(S)Ph2; dppeS = Ph2P(CH2)2P(S)Ph2; dpppS = Ph2P(CH2)3P(S)Ph2] are active catalyst precursors for the hydroformylation of 1‐octene in methyl isobutyl ketone. The order of reactivity found is3 &gt; 2 &gt; 1. Surprisingly, the cationic complexes [κ2P,S‐(dppeS)Pt(CH3)(CH3CN)]BF4 (4a) and [{κP,μ‐κS‐(dppeS)Pt(CH3)}2][BF4]2 (5) are less active than the analogous neutral complex 2. High‐pressure NMR studies revealed that, at 20 °C under 1 to 50 bar of syngas, and in the presence of SnCl2, both 2 and 4a react immediately to form the same acetyl complex (8). However, in the absence of SnCl2, the methyl carbonyl complex [κ2P,S‐(dppeS)Pt(CH3)(CO)]+ (9), which is formed from 4a and CO, does not undergo insertion to give the acetyl complex, even under 50 bar of syngas. Thus, the role of SnCl2 is not only to create a vacant site for CO coordination and to lower the energy barrier for the hydrogenolysis, but also to assist migration of the alkyl group in the CO insertion step. High‐pressure NMR studies of the working reaction solution, under steady‐state conditions, found no evidence for intermediates in which the phosphane sulfide group shows hemilabile behaviour during catalysis. (© Wiley‐VCH Verlag GmbH &amp; Co. KGaA, 69451 Weinheim, Germany, 2006)</abstract><cop>Weinheim</cop><pub>WILEY-VCH Verlag</pub><doi>10.1002/ejic.200501016</doi><tpages>9</tpages></addata></record>
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subjects Heteroditopic ligands
Hydroformylation
NMR spectroscopy
P,S ligands
Platinum
S ligands
title (Diphosphane monosulfide)platinum(II) Complexes for Hydroformylation Reactions: Their Catalytic Activity and a High-Pressure NMR Mechanistic Study
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