J. D. Newell scite author profile

Supported metal catalysts, which are composed of metal nanoparticles dispersed on metal oxides or other high-surface-area materials, are ubiquitous in industrially catalysed reactions. Identifying and characterizing the catalytic active sites on these materials still remains a substantial challenge, even though it is required to guide rational design of practical heterogeneous catalysts. Metal-support interactions have an enormous impact on the chemistry of the catalytic active site and can determine the optimum support for a reaction; however, few direct probes of these interactions are available. Here we show how benzyl alcohol oxidation Hammett studies can be used to characterize differences in the catalytic activity of Au nanoparticles hosted on various metal-oxide supports. We combine reactivity analysis with density functional theory calculations to demonstrate that the slope of experimental Hammett plots is affected by electron donation from the underlying oxide support to the Au particles.

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Glycolic-Formic Acid Flowsheet Final Report for Downselection Decision

Lambert¹,

Pickenheim²,

Stone³

et al. 2011

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Sludge batch 9 simulant runs using the nitric-glycolic acid flowsheet

Williams

Brandenburg

Luther

et al. 2016

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Thermolytic Hydrogen Generation Testing of Tank 22 Material

Martino

Pareizs

Newell

2018

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Defense Waste Processing Facility Simulant Chemical Processing Cell Studies for Sludge Batch 9

Smith¹,

Newell²,

Woodham³

2016

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J. D. Newell

Evaluating differences in the active-site electronics of supported Au nanoparticle catalysts using Hammett and DFT studies

Glycolic-Formic Acid Flowsheet Final Report for Downselection Decision

Sludge batch 9 simulant runs using the nitric-glycolic acid flowsheet

Thermolytic Hydrogen Generation Testing of Tank 22 Material

Defense Waste Processing Facility Simulant Chemical Processing Cell Studies for Sludge Batch 9

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