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Article Dans Une Revue Chemistry - A European Journal Année : 2001

Diene-Containing Half-Sandwich MoIII Complexes as Ethylene Polymerization Catalysts: Experimental and Theoretical Studies

Résumé

Seventeen-electron compounds of Mo III having the general formula [(h 5-C 5 R 5)Mo(h 4-diene)X 2 ] (R H, Me; diene butadiene, iso-prene, or 2,3-dimethylbutadiene; X Cl, CH 3) are a new class of ethylene polymerization catalysts. The polyethy-lene obtained shows a bimodal distribution , the major weight fraction being characterized by very long (M around 10 6) and highly linear polymer chains. The newly prepared pentamethylcyclo-pentadienyl (Cp*) derivatives are more active than the cyclopentadienyl (Cp) derivatives, but much less active than previously investigated niobium III compounds having the same stoichiometry. On the other hand, the turnover frequency of the active site leading to the high molecular weight chains is at least 10 times greater than that obtained with the corresponding Nb catalyst. The reason for the low activity is explained by a difficult activation process that is attributed to the low polarity and high strength of the Mo-alkyl bond. This is confirmed by a Mulliken charge analysis of density functional theory (DFT) geometry-optimized [CpM(h 4-C 4 H 6)-(CH 3) 2 ] (M Nb, Mo) and by the calculation of the heterolytic bond dissocia-tion energies. DFT calculations have also been carried out on the ethylene insertion coordinate for the [CpM-(h 4-C 4 H 6)(CH 3)] model of the presumed active site. The results indicate an equivalent activation barrier to insertion for the Nb and Mo systems. Differences in optimized geometries for the reaction intermediates are attributed to the presence of the extra electron for the Mo system. This electron opposes the formation of M-H-C agostic interactions , while it strengthens the back-bonding M ± ethylene interaction, but otherwise plays no active role in the polymer chain propagation mechanism. According to the calculations, the chain propagation for the Mo system occurs entirely on the spin doublet surface, the minimum energy crossover point with the quartet surface lying at a higher energy than the transition state for insertion on the doublet surface.
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Dates et versions

hal-03008467 , version 1 (06-10-2021)

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Erwan Le Grognec, Rinaldo Poli. Diene-Containing Half-Sandwich MoIII Complexes as Ethylene Polymerization Catalysts: Experimental and Theoretical Studies. Chemistry - A European Journal, 2001, 7 (21), pp.4572-4583. ⟨10.1002/1521-3765(20011105)7:21<4572::AID-CHEM4572>3.0.CO;2-2⟩. ⟨hal-03008467⟩
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