The migrative insertion of CO into the Ni-CH=CH2 bond has been investigated by both static and dynamic density functional methods. The stationary points of the potential surface for the migrative insertion of CO into the Ni-CH=CH2 bond have been characterized using Cl(CO)(2)Ni-CH=CH2 as a model compound. Such a reaction has been found exothermic by 16 kJ mol(-1), with an energy barrier of 9 kJ mol(-1). Dynamic simulations have also been performed on Cl(CO)(2)Ni-CH=CH2 and show that the migrative insertion begins from the cis isomer and occurs via a simultaneous detachment of the vinyl group from the metal and formation of the vinyl-carbonyl bond. (C) 1998 Elsevier Science B.V. All rights reserved.

A dynamical density functional study of CO migration in the Reppe carbonylation

RE, Nazzareno;
1998-01-01

Abstract

The migrative insertion of CO into the Ni-CH=CH2 bond has been investigated by both static and dynamic density functional methods. The stationary points of the potential surface for the migrative insertion of CO into the Ni-CH=CH2 bond have been characterized using Cl(CO)(2)Ni-CH=CH2 as a model compound. Such a reaction has been found exothermic by 16 kJ mol(-1), with an energy barrier of 9 kJ mol(-1). Dynamic simulations have also been performed on Cl(CO)(2)Ni-CH=CH2 and show that the migrative insertion begins from the cis isomer and occurs via a simultaneous detachment of the vinyl group from the metal and formation of the vinyl-carbonyl bond. (C) 1998 Elsevier Science B.V. All rights reserved.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11564/290849
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