Research Update: Distribution and stabilization of Pd catalysts in porous carbon-based supports by aggregation of pre-doped colloidal particles

Research Update: Distribution and stabilization of Pd catalysts in porous carbon-based supports by aggregation of pre-doped colloidal particles

In this work, the synthesis of a stable supported Pd catalyst by aggregation of colloidal particles (CPs) of polyacrylonitrile (PAN) containing the noble metal is discussed. The metal is initially incorporated during the polymerization reaction (0.5 wt. %) and results to be well embedded inside the...

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Main Authors: Anna Beltzung, Mark A. Newton, Maarten Nachtegaal, Hua Wu, Giuseppe Storti, Massimo Morbidelli
Format: Article
Language:English
Published: AIP Publishing LLC 2018-10-01
Series:APL Materials
Online Access:http://dx.doi.org/10.1063/1.5046552
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spelling doaj-52cdba6c59ee4f869668372c245d61c72020-11-24T22:39:24ZengAIP Publishing LLCAPL Materials2166-532X2018-10-01610100704100704-1510.1063/1.5046552012810APMResearch Update: Distribution and stabilization of Pd catalysts in porous carbon-based supports by aggregation of pre-doped colloidal particlesAnna Beltzung0Mark A. Newton1Maarten Nachtegaal2Hua Wu3Giuseppe Storti4Massimo Morbidelli5Department of Chemistry and Applied Biosciences, Institute for Chemical and Bioengineering, ETH Zurich, SwitzerlandDepartment of Chemistry and Applied Biosciences, Institute for Chemical and Bioengineering, ETH Zurich, SwitzerlandPaul Scherrer Institute, 5232 Villigen, SwitzerlandDepartment of Chemistry and Applied Biosciences, Institute for Chemical and Bioengineering, ETH Zurich, SwitzerlandDepartment of Chemistry and Applied Biosciences, Institute for Chemical and Bioengineering, ETH Zurich, SwitzerlandDepartment of Chemistry and Applied Biosciences, Institute for Chemical and Bioengineering, ETH Zurich, SwitzerlandIn this work, the synthesis of a stable supported Pd catalyst by aggregation of colloidal particles (CPs) of polyacrylonitrile (PAN) containing the noble metal is discussed. The metal is initially incorporated during the polymerization reaction (0.5 wt. %) and results to be well embedded inside the polymeric structure and anchored to the nitrogen atom of acrylonitrile. Moreover, aiming to provide free access towards the catalyst active sites, a KOH-activated heat treatment was performed on the PAN CP aggregates, thus creating pore sizes between 0.7 and 5 nm with surface area SBET = 1150 m2/g. After the harsh heat treatment, the amount of Pd remaining in the pyrolyzed polymer is 2.8 wt. %, as measured by Inductively Coupled Plasma-Optical Emission Spectroscopy (ICP-OES), which then corresponds to a total weight loss of 83% (assuming no loss of Pd). This result indicates a remarkable stability of Pd inside the polymer structure and that minimal Pd leaching can be expected during the catalyst use. X-ray absorption spectroscopic studies of pyrolyzed Pd-containing PAN and following extended X-ray absorption fine structure fitting showed no sign of bulk Pd(0), while a dominant proportion of Pd is present as dispersed Pd carbides. These results are consistent with the data obtained using X-ray absorption near edge structure. Finally, the catalyst was tested on a Suzuki coupling in the liquid phase and showed good activity, hence proving the accessibility of the active sites to reactants.http://dx.doi.org/10.1063/1.5046552
collection DOAJ
language English
format Article
sources DOAJ
author Anna Beltzung
Mark A. Newton
Maarten Nachtegaal
Hua Wu
Giuseppe Storti
Massimo Morbidelli
spellingShingle Anna Beltzung
Mark A. Newton
Maarten Nachtegaal
Hua Wu
Giuseppe Storti
Massimo Morbidelli
Research Update: Distribution and stabilization of Pd catalysts in porous carbon-based supports by aggregation of pre-doped colloidal particles
APL Materials
author_facet Anna Beltzung
Mark A. Newton
Maarten Nachtegaal
Hua Wu
Giuseppe Storti
Massimo Morbidelli
author_sort Anna Beltzung
title Research Update: Distribution and stabilization of Pd catalysts in porous carbon-based supports by aggregation of pre-doped colloidal particles
title_short Research Update: Distribution and stabilization of Pd catalysts in porous carbon-based supports by aggregation of pre-doped colloidal particles
title_full Research Update: Distribution and stabilization of Pd catalysts in porous carbon-based supports by aggregation of pre-doped colloidal particles
title_fullStr Research Update: Distribution and stabilization of Pd catalysts in porous carbon-based supports by aggregation of pre-doped colloidal particles
title_full_unstemmed Research Update: Distribution and stabilization of Pd catalysts in porous carbon-based supports by aggregation of pre-doped colloidal particles
title_sort research update: distribution and stabilization of pd catalysts in porous carbon-based supports by aggregation of pre-doped colloidal particles
publisher AIP Publishing LLC
series APL Materials
issn 2166-532X
publishDate 2018-10-01
description In this work, the synthesis of a stable supported Pd catalyst by aggregation of colloidal particles (CPs) of polyacrylonitrile (PAN) containing the noble metal is discussed. The metal is initially incorporated during the polymerization reaction (0.5 wt. %) and results to be well embedded inside the polymeric structure and anchored to the nitrogen atom of acrylonitrile. Moreover, aiming to provide free access towards the catalyst active sites, a KOH-activated heat treatment was performed on the PAN CP aggregates, thus creating pore sizes between 0.7 and 5 nm with surface area SBET = 1150 m2/g. After the harsh heat treatment, the amount of Pd remaining in the pyrolyzed polymer is 2.8 wt. %, as measured by Inductively Coupled Plasma-Optical Emission Spectroscopy (ICP-OES), which then corresponds to a total weight loss of 83% (assuming no loss of Pd). This result indicates a remarkable stability of Pd inside the polymer structure and that minimal Pd leaching can be expected during the catalyst use. X-ray absorption spectroscopic studies of pyrolyzed Pd-containing PAN and following extended X-ray absorption fine structure fitting showed no sign of bulk Pd(0), while a dominant proportion of Pd is present as dispersed Pd carbides. These results are consistent with the data obtained using X-ray absorption near edge structure. Finally, the catalyst was tested on a Suzuki coupling in the liquid phase and showed good activity, hence proving the accessibility of the active sites to reactants.
url http://dx.doi.org/10.1063/1.5046552
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