Leaching of palladium atoms from small cluster models during Heck reactions – An experimental and theoretical study

Katharina Wussow; Andrea Abram; Klaus Köhler; Chun Ran Chang; Alexander Genest; Jun Li; Notker Rösch

doi:10.1016/j.catcom.2022.106441

Leaching of palladium atoms from small cluster models during Heck reactions – An experimental and theoretical study

Katharina Wussow, Andrea Abram, Klaus Köhler, Chun Ran Chang, Alexander Genest, Jun Li, Notker Rösch

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

Abstract

Relevant parameters for the leaching of palladium atoms from small Pd clusters during Heck reactions of bromobenzene and styrene have been explored computationally and experimentally. With density functional theory calculations, we modeled reaction free energies for removing a Pd atom from a Pd₆ model cluster and for forming Pd-ligand complexes. Oxidative addition of bromobenzene decreases the dissolution energy. Additional parameters and mechanisms, especially bromide ions render the leaching process notably exergonic. Model results exhibit the same trends as the targeted experiments where Pd leaching from supported catalysts (Pd/C, Pd/SiO₂) was monitored as function of reaction temperature, time and components.

Original language	English
Article number	106441
Journal	Catalysis Communications
Volume	165
DOIs	https://doi.org/10.1016/j.catcom.2022.106441
State	Published - May 2022

Keywords

DFT calculations
Heck reaction
Palladium leaching
Solid-liquid interface

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title = "Leaching of palladium atoms from small cluster models during Heck reactions – An experimental and theoretical study",

abstract = "Relevant parameters for the leaching of palladium atoms from small Pd clusters during Heck reactions of bromobenzene and styrene have been explored computationally and experimentally. With density functional theory calculations, we modeled reaction free energies for removing a Pd atom from a Pd6 model cluster and for forming Pd-ligand complexes. Oxidative addition of bromobenzene decreases the dissolution energy. Additional parameters and mechanisms, especially bromide ions render the leaching process notably exergonic. Model results exhibit the same trends as the targeted experiments where Pd leaching from supported catalysts (Pd/C, Pd/SiO2) was monitored as function of reaction temperature, time and components.",

keywords = "DFT calculations, Heck reaction, Palladium leaching, Solid-liquid interface",

author = "Katharina Wussow and Andrea Abram and Klaus K{\"o}hler and Chang, {Chun Ran} and Alexander Genest and Jun Li and Notker R{\"o}sch",

note = "Publisher Copyright: {\textcopyright} 2022 The Authors",

year = "2022",

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doi = "10.1016/j.catcom.2022.106441",

language = "English",

volume = "165",

journal = "Catalysis Communications",

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TY - JOUR

T1 - Leaching of palladium atoms from small cluster models during Heck reactions – An experimental and theoretical study

AU - Wussow, Katharina

AU - Abram, Andrea

AU - Köhler, Klaus

AU - Chang, Chun Ran

AU - Genest, Alexander

AU - Li, Jun

AU - Rösch, Notker

PY - 2022/5

Y1 - 2022/5

N2 - Relevant parameters for the leaching of palladium atoms from small Pd clusters during Heck reactions of bromobenzene and styrene have been explored computationally and experimentally. With density functional theory calculations, we modeled reaction free energies for removing a Pd atom from a Pd6 model cluster and for forming Pd-ligand complexes. Oxidative addition of bromobenzene decreases the dissolution energy. Additional parameters and mechanisms, especially bromide ions render the leaching process notably exergonic. Model results exhibit the same trends as the targeted experiments where Pd leaching from supported catalysts (Pd/C, Pd/SiO2) was monitored as function of reaction temperature, time and components.

AB - Relevant parameters for the leaching of palladium atoms from small Pd clusters during Heck reactions of bromobenzene and styrene have been explored computationally and experimentally. With density functional theory calculations, we modeled reaction free energies for removing a Pd atom from a Pd6 model cluster and for forming Pd-ligand complexes. Oxidative addition of bromobenzene decreases the dissolution energy. Additional parameters and mechanisms, especially bromide ions render the leaching process notably exergonic. Model results exhibit the same trends as the targeted experiments where Pd leaching from supported catalysts (Pd/C, Pd/SiO2) was monitored as function of reaction temperature, time and components.

KW - DFT calculations

KW - Heck reaction

KW - Palladium leaching

KW - Solid-liquid interface

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DO - 10.1016/j.catcom.2022.106441

M3 - Article

AN - SCOPUS:85125911537

SN - 1566-7367

VL - 165

JO - Catalysis Communications

JF - Catalysis Communications

M1 - 106441

ER -

Leaching of palladium atoms from small cluster models during Heck reactions – An experimental and theoretical study

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