Mechanistic Insights into the Catalytic Acetylene Hydrochlorination over Pt(II) Chloro Complexes

Despite the Minamata Convention’s efforts to reduce mercury in industry, acetylene hydrochlorination still relies on a highly toxic HgCl2 catalyst, forcing the search for environmentally benign catalysts. The targeted development of new catalytic systems is hampered by the lack of well-defined conce...

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Published in	Journal of physical chemistry. C Vol. 129; no. 26; pp. 11920 - 11926
Main Authors	Krasniakova, Irina O., Mitchenko, Sergey A., Krasnyakova, Tatyana V., Nikitenko, Denis V., Gogil’chin, Andrey S., Soldatov, Alexander V., Bugaev, Aram L.
Format	Journal Article
Language	English
Published	American Chemical Society 03.07.2025
Subjects	C: Chemical and Catalytic Reactivity at Interfaces
Online Access	Get full text
ISSN	1932-7447 1932-7455
DOI	10.1021/acs.jpcc.5c00454

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Abstract	Despite the Minamata Convention’s efforts to reduce mercury in industry, acetylene hydrochlorination still relies on a highly toxic HgCl2 catalyst, forcing the search for environmentally benign catalysts. The targeted development of new catalytic systems is hampered by the lack of well-defined concepts about the mechanism of the heterogeneously catalyzed reaction. Herein, density functional modeling of the energy profile for catalytic acetylene hydrochlorination over mechanically preactivated K2PtCl4 salt was correlated with experimental data, confirming the concept of “noninnocent/cooperative” ligands. Chloroplatination of π-coordinated acetylene by the HCl molecule to form the β-chlorovinyl PtII derivative is shown to be the rate-limiting step. It involves the attack by the Cl atom of the HCl molecule on the C atom of the π-complex to form the product of exclusively trans(anti)-addition across the triple bond, in agreement with the experiment. The neighboring platinum complex facilitates this conversion by donating a chloride ligand to bind the released H+ to form a new HCl molecule. In addition, the HCl/DCl kinetic isotope effect (KIE) estimated from the calculations is 3.1, close to KIE = 3.7 determined experimentally. These results establish a mechanistic understanding of the acetylene hydrochlorination over K2PtCl4 and highlight the involvement of two Pt-cites in catalyzing the reaction.
AbstractList	Despite the Minamata Convention’s efforts to reduce mercury in industry, acetylene hydrochlorination still relies on a highly toxic HgCl2 catalyst, forcing the search for environmentally benign catalysts. The targeted development of new catalytic systems is hampered by the lack of well-defined concepts about the mechanism of the heterogeneously catalyzed reaction. Herein, density functional modeling of the energy profile for catalytic acetylene hydrochlorination over mechanically preactivated K2PtCl4 salt was correlated with experimental data, confirming the concept of “noninnocent/cooperative” ligands. Chloroplatination of π-coordinated acetylene by the HCl molecule to form the β-chlorovinyl PtII derivative is shown to be the rate-limiting step. It involves the attack by the Cl atom of the HCl molecule on the C atom of the π-complex to form the product of exclusively trans(anti)-addition across the triple bond, in agreement with the experiment. The neighboring platinum complex facilitates this conversion by donating a chloride ligand to bind the released H+ to form a new HCl molecule. In addition, the HCl/DCl kinetic isotope effect (KIE) estimated from the calculations is 3.1, close to KIE = 3.7 determined experimentally. These results establish a mechanistic understanding of the acetylene hydrochlorination over K2PtCl4 and highlight the involvement of two Pt-cites in catalyzing the reaction.
Author	Gogil’chin, Andrey S. Krasnyakova, Tatyana V. Krasniakova, Irina O. Nikitenko, Denis V. Bugaev, Aram L. Soldatov, Alexander V. Mitchenko, Sergey A.
AuthorAffiliation	Center for Photon Science Institute of Physical Organic Chemistry and Coal Chemistry The Smart Materials Research Institute
AuthorAffiliation_xml	– name: Center for Photon Science – name: The Smart Materials Research Institute – name: Institute of Physical Organic Chemistry and Coal Chemistry
Author_xml	– sequence: 1 givenname: Irina O. orcidid: 0009-0006-9349-5541 surname: Krasniakova fullname: Krasniakova, Irina O. organization: The Smart Materials Research Institute – sequence: 2 givenname: Sergey A. orcidid: 0000-0003-3562-1256 surname: Mitchenko fullname: Mitchenko, Sergey A. email: samit_RPt@mail.ru organization: Institute of Physical Organic Chemistry and Coal Chemistry – sequence: 3 givenname: Tatyana V. orcidid: 0000-0003-2556-1966 surname: Krasnyakova fullname: Krasnyakova, Tatyana V. organization: Institute of Physical Organic Chemistry and Coal Chemistry – sequence: 4 givenname: Denis V. orcidid: 0000-0001-6902-8114 surname: Nikitenko fullname: Nikitenko, Denis V. organization: Institute of Physical Organic Chemistry and Coal Chemistry – sequence: 5 givenname: Andrey S. orcidid: 0009-0005-0547-4664 surname: Gogil’chin fullname: Gogil’chin, Andrey S. organization: Institute of Physical Organic Chemistry and Coal Chemistry – sequence: 6 givenname: Alexander V. surname: Soldatov fullname: Soldatov, Alexander V. organization: The Smart Materials Research Institute – sequence: 7 givenname: Aram L. orcidid: 0000-0001-8273-2560 surname: Bugaev fullname: Bugaev, Aram L. email: aram.bugaev@psi.ch organization: Center for Photon Science
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Title	Mechanistic Insights into the Catalytic Acetylene Hydrochlorination over Pt(II) Chloro Complexes
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