Michel Leconte
Centre national de la recherche scientifique
54 Papers
782 Citations
Michel Leconte is an academic researcher from Centre national de la recherche scientifique. The author has contributed to research in topics: Metathesis & Catalysis. The author has an hindex of 20, co-authored 54 publications. Previous affiliations of Michel Leconte include Claude Bernard University Lyon 1.
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Papers
Surface organometallic chemistry : molecular approaches to surface catalysis
Jean-Marie Basset,Bruce C. Gates,Jean-Pierre Candy,Agnès Choplin,Michel Leconte,Françoise Quignard,Catherine C. Santini +6 more
TL;DR: The surface organometallic chemistry: Molecular Approaches to Surface Catalysis was discussed at the Nato Workshop on Surface Organometallic Chemistry (NWC) as discussed by the authors, where the surface of oxides at a molecular level was studied.
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Surface supported metal cluster carbonyls. Chemisorption decomposition and reactivity of Rh4(CO)12 supported on silica and alumina
Albert Theolier,A.K. Smith,Michel Leconte,Jean-Marie Basset,G. M. Zanderighi,Rinaldo Psaro,Renato Ugo +6 more
TL;DR: In this paper, it was shown that a simple rearrangement of the cluster cage implies mobility of zerovalent rhodium carbonyl fragments on the surface of silica.
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A surface organometallic approach to the synthesis of rhenium-based catalysts for the metathesis of olefins: CH3ReO3/Nb2O5
Regina Buffon,A. Auroux,Frédéric Lefebvre,Michel Leconte,A. Choplin,Jean-Marie Basset,Wolfgang A. Herrmann +6 more
TL;DR: The reaction of methyltrioxorhenium with the surface of niobium oxide leads to an active catalyst for the metathesis of acyclic olefins.
83
Aryloxide ligands in metathesis of olefins and olefinic esters: catalytic behaviour of W(OAr)2Cl4 complexes associated with alkyl-tin or alkyl-lead cocatalysts; alkylation of W(OAr)2Cl4 by SnMe4, Sn(n-Bu)4, Pb(n-Bu)4, MgNp2: synthesis of W(OAr)2Cl2(CHCMe3)(OR2) and W(OAr)2Cl(CHCMe3)(CH2CMe3)(OR2)
TL;DR: In this article, a metathesis of internal and terminal olefins, as well as olefinic esters, can be achieved with the complexes W(OAr)2Cl4 associated with MR4 (M = Sn, Pb; R = Me, n-Bu).
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