Nobuaki Koga scite author profile

The reaction steps responsible for the highly enantioselective asymmetric copolymerization of propene with carbon monoxide catalyzed by a cationic Pd(II) complex bearing an unsymmetrical chiral bidentate phosphine−phosphite, (R,S)-BINAPHOS [(R,S)-2-(diphenylphosphino)-1,1‘-binaphthalen-2‘-yl 1,1‘-binaphthalene-2,2‘-diyl phosphite = L1], have been studied. Stepwise identification and characterization were carried out for catalyst precursors (SP-4-2)- and (SP-4-3)-Pd(CH3)Cl(L1) (1a and 1b) and (SP-4-3)-[Pd(CH3)(CH3CN)(L1)]·X1 (X1 = B{3,5-(CF3)2C6H3}4) (2), and complexes related to the reaction steps, (SP-4-3)-[Pd(COCH3)(CH3CN)(L1)]·X1 (3), (SP-4-3)- and (SP-4-4)-[Pd{CH2CH(CH3)COCH3}(L1)]·X1 (4a and 4b), (SP-4-3)-[Pd{COCH2CH(CH3)COCH3}(CH3CN)(L1)]·X1 (5), and (SP-4-3)-[Pd{CH2CH(CH3)COCH2CH(CH3)COCH3}(L1)]·X1 (6). An X-ray structure of alkyl complex 4a has been obtained. Studies on [Pt(CH3)2(L1)] (8) reveal that the methyl group is more stabilized at a position trans to the phosphine than at the cis position. This is consistent with the structures of 1−6 in which all carbon substituents are trans to the phosphine moiety in their major forms. On the basis of analogous studies using platinum complexes, an isomerization from (SP-4-3)-[Pd(CH3)(CO)(L1)]·X1 (13a) to the (SP-4-4) isomer (13b) is suggested to occur for the CO-insertion process 2 → 3, which results in the activation of the methyl group for the migration to the coordinated CO. Rapid equilibrium was observed between the two isomers 4a and 4b during the CO insertion process to give 5. Theoretical studies have been carried out on the transformation of 3 to 4a and 4b. The B3LYP and MPn calculations indicated that the alkene insertion into the Pd−acyl bond trans to a phosphine is more favorable than that into the Pd−acyl bond trans to a phosphite. The MM3 calculations demonstrated that one specific transition structure is more favorable than the other possible transition structures for the transformation of (SP-4-4)-[Pd(COCH3)(propene)(L1)]·X1 (14b) to 4b. The difference originates from the steric effects of the BINAPHOS ligand, and the results account for high enantio- and regioselectivities experimentally observed. The two key steps, propene insertion into 3 and CO insertion into 4, were monitored by 1H NMR spectroscopy. The activation energies for these two steps were estimated to be 19.0−19.6 kcal/mol at −20 to 0 °C, their difference being insignificant. The living nature of the copolymerization was proved. Some related chiral ligands were examined for the copolymerization. Copolymerization of other olefins with CO was also investigated.

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Ab initio molecular orbital studies of catalytic elementary reactions and catalytic cycles of transition-metal complexes

Koga¹,

Morokuma²

1991

Chem. Rev.

314

171

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Determination of the lowest energy point on the crossing seam between two potential surfaces using the energy gradient

Koga

Morokuma

1985

Chemical Physics Letters

239

156

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An ab initio MO and MM study of homogeneous olefin polymerization with silylene-bridged zirconocene catalyst and its regio- and stereoselectivity

Kawamura-Kuribayashi¹,

Koga²,

Morokuma³

1992

J. Am. Chem. Soc.

242

142

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The olefin polymerization reaction by silylene-bridged zirconocene catalysts has been investigated theoretically.With the ab initio molecular orbital (MO) method the structure and energetics of the reactants, the ir-complex, the transition state, and the product for insertion of ethylene into (SiH2Cp2)ZrCH3+ have been determined. The nearly C,-symmetric transition state has a low activation barrier (about 6.0 kcal/mol from the x-complex). The product shows a strong C6-H agostic interaction.Based on the above transition state structure, molecular mechanics (MM) calculations have been carried out to investigate the effects of alkyl substituents on olefins and methyl groups and other substituents on the Cp rings as well as the effects of the alkyl group on Zr, a model polymer chain end. The regioselectivity in propylene polymerization, that the primary insertion is preferred to the secondary insertion, is reproduced well by the energy difference at the transition state but not by that of the 7r-complex. As to the stereoselectivity in isotactic polymerization of propylene by SiH2(CpMe")2ZrR+, the substituents on the Cp rings have been found to determine the conformation of the polymer chain end, and the fixed polymer chain end conformation in turn determines the stereochemistry of olefin insertion at the transition state. The direct steric effect of the Cp methyl groups on the olefin insertion stereochemistry is negligibly small. The same direct control mechanism is operational also in syndiotactic polymerization of propylene and 4-methyl-l-pentene.(34) Sherrod, M.

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Nobuaki Koga

Mechanistic Aspects of the Alternating Copolymerization of Propene with Carbon Monoxide Catalyzed by Pd(II) Complexes of Unsymmetrical Phosphine−Phosphite Ligands

Ab initio molecular orbital studies of catalytic elementary reactions and catalytic cycles of transition-metal complexes

Determination of the lowest energy point on the crossing seam between two potential surfaces using the energy gradient

An ab initio MO and MM study of homogeneous olefin polymerization with silylene-bridged zirconocene catalyst and its regio- and stereoselectivity

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