Palladium hydride promotion by KHCO3 enhances the decarboxylation rate

Fuli Deng; Iris K.M. Yu; Xi Chen; Guanhua Cheng; Ruixue Zhao; Ali Rinaldi; Andreas Jentys; Donald M. Camaioni; Marc G. Willinger; Yue Liu; Johannes A. Lercher

doi:10.1016/j.jcat.2023.08.002

Palladium hydride promotion by KHCO₃ enhances the decarboxylation rate

Fuli Deng, Iris K.M. Yu, Xi Chen, Guanhua Cheng, Ruixue Zhao, Ali Rinaldi, Andreas Jentys, Donald M. Camaioni, Marc G. Willinger, Yue Liu, Johannes A. Lercher

Publikation: Beitrag in Fachzeitschrift › Artikel › Begutachtung

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Abstract

Direct conversion of carboxylic acids to alkanes by decarboxylation on PdH_x is an effective way to defunctionalize biomass-derived feedstocks. This catalytic decarboxylation generally suffers from low activity and selectivity loss by competing hydrogenation routes. Anchoring the carboxylate group with K⁺ on PdH_x/C increases the rate of decarboxylation by more than one order of magnitude. Temperature-programmed desorption of CO₂ shows that the modification increases the surface basicity. In turn, this induces dissociative adsorption of the acid carboxylic group. The resulting adsorption as carboxylate facilitates the C–C bond cleavage by weakening the bond adjacent to the carboxyl group.

Originalsprache	Englisch
Aufsatznummer	115086
Fachzeitschrift	Journal of Catalysis
Jahrgang	427
DOIs	https://doi.org/10.1016/j.jcat.2023.08.002
Publikationsstatus	Veröffentlicht - Nov. 2023

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10.1016/j.jcat.2023.08.002

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title = "Palladium hydride promotion by KHCO3 enhances the decarboxylation rate",

abstract = "Direct conversion of carboxylic acids to alkanes by decarboxylation on PdHx is an effective way to defunctionalize biomass-derived feedstocks. This catalytic decarboxylation generally suffers from low activity and selectivity loss by competing hydrogenation routes. Anchoring the carboxylate group with K+ on PdHx/C increases the rate of decarboxylation by more than one order of magnitude. Temperature-programmed desorption of CO2 shows that the modification increases the surface basicity. In turn, this induces dissociative adsorption of the acid carboxylic group. The resulting adsorption as carboxylate facilitates the C–C bond cleavage by weakening the bond adjacent to the carboxyl group.",

keywords = "Alkali-metal compounds, Carboxylic acid, Decarboxylation mechanism, Pd hydride catalyst, Promotion effect",

author = "Fuli Deng and Yu, {Iris K.M.} and Xi Chen and Guanhua Cheng and Ruixue Zhao and Ali Rinaldi and Andreas Jentys and Camaioni, {Donald M.} and Willinger, {Marc G.} and Yue Liu and Lercher, {Johannes A.}",

note = "Publisher Copyright: {\textcopyright} 2023 Elsevier Inc.",

year = "2023",

month = nov,

doi = "10.1016/j.jcat.2023.08.002",

language = "English",

volume = "427",

journal = "Journal of Catalysis",

issn = "0021-9517",

publisher = "Academic Press Inc.",

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TY - JOUR

T1 - Palladium hydride promotion by KHCO3 enhances the decarboxylation rate

AU - Deng, Fuli

AU - Yu, Iris K.M.

AU - Chen, Xi

AU - Cheng, Guanhua

AU - Zhao, Ruixue

AU - Rinaldi, Ali

AU - Jentys, Andreas

AU - Camaioni, Donald M.

AU - Willinger, Marc G.

AU - Liu, Yue

AU - Lercher, Johannes A.

PY - 2023/11

Y1 - 2023/11

N2 - Direct conversion of carboxylic acids to alkanes by decarboxylation on PdHx is an effective way to defunctionalize biomass-derived feedstocks. This catalytic decarboxylation generally suffers from low activity and selectivity loss by competing hydrogenation routes. Anchoring the carboxylate group with K+ on PdHx/C increases the rate of decarboxylation by more than one order of magnitude. Temperature-programmed desorption of CO2 shows that the modification increases the surface basicity. In turn, this induces dissociative adsorption of the acid carboxylic group. The resulting adsorption as carboxylate facilitates the C–C bond cleavage by weakening the bond adjacent to the carboxyl group.

AB - Direct conversion of carboxylic acids to alkanes by decarboxylation on PdHx is an effective way to defunctionalize biomass-derived feedstocks. This catalytic decarboxylation generally suffers from low activity and selectivity loss by competing hydrogenation routes. Anchoring the carboxylate group with K+ on PdHx/C increases the rate of decarboxylation by more than one order of magnitude. Temperature-programmed desorption of CO2 shows that the modification increases the surface basicity. In turn, this induces dissociative adsorption of the acid carboxylic group. The resulting adsorption as carboxylate facilitates the C–C bond cleavage by weakening the bond adjacent to the carboxyl group.

KW - Alkali-metal compounds

KW - Carboxylic acid

KW - Decarboxylation mechanism

KW - Pd hydride catalyst

KW - Promotion effect

UR - http://www.scopus.com/inward/record.url?scp=85172449763&partnerID=8YFLogxK

U2 - 10.1016/j.jcat.2023.08.002

DO - 10.1016/j.jcat.2023.08.002

M3 - Article

AN - SCOPUS:85172449763

SN - 0021-9517

VL - 427

JO - Journal of Catalysis

JF - Journal of Catalysis

M1 - 115086