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JOURNAL ARTICLE

Atomically Dispersed Reduced Graphene Aerogel-Supported Iridium Catalyst with an Iridium Loading of 14.8 wt %

Melike BabucciF. Eylul Sarac OztunaLouise M. DebefveAlexey BoubnovSimon R. BareBruce C. GatesUğur ÜnalAlper Uzun

Year: 2019 Journal:   ACS Catalysis Vol: 9 (11)Pages: 9905-9913   Publisher: American Chemical Society
DOI: 10.1021/acscatal.9b02231
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Abstract

Atomically dispersed iridium complexes were anchored on a reduced graphene aerogel (rGA) by the reaction of Ir(CO)<sub>2</sub>(acac) [acac = acetonylacetonato] with oxygen-containing groups on the rGA. Characterization by X-ray absorption, infrared, and X-ray photoelectron spectroscopies and atomic resolution aberration-corrected scanning transmission electron microscopy demonstrates atomically dispersed iridium, at the remarkably high loading of 14.8 wt %. The rGA support offers sites for metal bonding comparable to those of metal oxides, but with the advantages of high density and a relatively high degree of uniformity, as indicated by the same turnover frequencies for catalytic hydrogenation of ethylene at low and high iridium loadings. We note the atomic dispersion at a high metal loading—and the high density of catalytic sites per unit of reactor volume, a key criterion for practical catalysts—set this catalyst apart from those reported.

Keywords:
Iridium Aerogel Catalysis Materials science Graphene Metal Dispersion (optics) Chemical engineering Nanotechnology Chemistry Organic chemistry Metallurgy Optics

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0.96
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Citation History

Topics

Catalytic Processes in Materials Science
Physical Sciences →  Materials Science →  Materials Chemistry
Nanomaterials for catalytic reactions
Physical Sciences →  Chemistry →  Organic Chemistry
Electrocatalysts for Energy Conversion
Physical Sciences →  Energy →  Renewable Energy, Sustainability and the Environment

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