Aqueous Au-Pd colloids catalyze selective CH  4  oxidation to CH  3  OH with O  2  under mild conditions

Agarwal, Nishtha; Freakley, Simon J.; McVicker, Rebecca; Althahban, Sultan M.; Dimitratos, Nikolaos; He, Qian; Morgan, David; Jenkins, Robert L.; Willock, David J.; Taylor, Stuart H.; Kiely, Christopher J.; Hutchings, Graham J.

doi:10.1126/science.aan6515

articleScienceSep 8, 2017GREEN OA

Aqueous Au-Pd colloids catalyze selective CH 4 oxidation to CH 3 OH with O 2 under mild conditions

NANishtha Agarwal SJSimon J. Freakley RMRebecca McVickerSMSultan M. AlthahbanNDNikolaos Dimitratos

Cardiff University · Lehigh University

PubMed

Indexed incrossrefpubmed

Abstract

A radical route from methane to methanol The conversion of methane into chemicals usually proceeds through high-temperature routes that first form more reactive carbon monoxide and hydrogen. Agarwal et al. report a low-temperature (50°C) route in aqueous hydrogen peroxide (H 2 O 2 ) for oxidizing methane to methanol in high yield (92%). They used colloidal gold-palladium nanoparticles as a catalyst. The primary oxidant was O 2 ; isotopic labeling showed that H 2 O 2 activated methane to methyl radicals, which subsequently incorporated O 2 . Science , this issue p. 223

Citation impact

678

total citations

FWCI: 20.33
Percentile: 100%
References: 31

Citations per year

Authors

12

NA
Nishtha Agarwal
Cardiff University
SJ
Simon J. Freakley
Cardiff University
RM
Rebecca McVicker
Cardiff University
SM
Sultan M. Althahban
Lehigh University
ND
Nikolaos Dimitratos
Cardiff University

Topics & keywords

Topics

Keywords

Oxidizing agent
Chemistry
Catalysis
Hydrogen peroxide
Methane
Methanol
Aqueous solution
Carbon monoxide

UN Sustainable Development Goals

Clean water and sanitation

No related works found for this paper.