Herein, we report the homo- and co-polymerization of ethylene (E) with norbornene (NB) catalyzed by vanadium(III) phosphine complexes of the type VCl3(PMenPh3-n)(2) [n = 2 (1a), 1 (1b)] and VCl3(PR3)(2) [R = phenyl (Ph, 1c), cyclohexyl (Cy, 1d), tert-butyl (tBu, 1e)]. In the presence of Et2AlCl and Cl3CCOOEt (ETA), 1a-1e exhibit good activities for the polymerization of ethylene, affording linear, semicrystalline PEs with a melting temperature of approximately 130 degrees C. Mainly alternating copolymers with high comonomer incorporation were obtained in the E/NB copolymerization. A relationship was found between the electronic and steric properties of the phosphine ligands and the catalytic performance. Overall, the presence of electron-withdrawing ligand substituents increases the productivity, complexes with aryl phosphine (weaker sigma-donor character) exhibiting a higher (co)polymerization initiation rate than those with alkyl phosphines (stronger sigma-donor character). Steric effects also seem to play a key role since 1d and 1e, having large size phosphines (PCy3 = 170 degrees and PtBu3 = 182 degrees, respectively) are more active than 1a (PMe2Ph = 122 degrees). In this case, the larger size of PtBu3 and PCy3 likely compensates for their higher donor strength compared to PMe2Ph.
Homo- and Copolymerization of Ethylene with Norbornene Catalyzed by Vanadium(III) Phosphine Complexes
Zanchin Giorgia;Bertini Fabio;Ricci Giovanni;Leone Giuseppe
2019
Abstract
Herein, we report the homo- and co-polymerization of ethylene (E) with norbornene (NB) catalyzed by vanadium(III) phosphine complexes of the type VCl3(PMenPh3-n)(2) [n = 2 (1a), 1 (1b)] and VCl3(PR3)(2) [R = phenyl (Ph, 1c), cyclohexyl (Cy, 1d), tert-butyl (tBu, 1e)]. In the presence of Et2AlCl and Cl3CCOOEt (ETA), 1a-1e exhibit good activities for the polymerization of ethylene, affording linear, semicrystalline PEs with a melting temperature of approximately 130 degrees C. Mainly alternating copolymers with high comonomer incorporation were obtained in the E/NB copolymerization. A relationship was found between the electronic and steric properties of the phosphine ligands and the catalytic performance. Overall, the presence of electron-withdrawing ligand substituents increases the productivity, complexes with aryl phosphine (weaker sigma-donor character) exhibiting a higher (co)polymerization initiation rate than those with alkyl phosphines (stronger sigma-donor character). Steric effects also seem to play a key role since 1d and 1e, having large size phosphines (PCy3 = 170 degrees and PtBu3 = 182 degrees, respectively) are more active than 1a (PMe2Ph = 122 degrees). In this case, the larger size of PtBu3 and PCy3 likely compensates for their higher donor strength compared to PMe2Ph.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.