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Syngas photocatalysis made easy

Syngas photocatalysis made easy
Schematic for simultaneous adsorption/activation of CH4 and H2O by RhOx/GaN system based on density functional theory calculations. Credit: Li et al.

A study published in the journal PNAS Nexus reports a photocatalyst to enable solar-driven syngas production from methane steam reforming—a possible bridge fuel to a post-carbon energy world.

Methane steam reforming is the process of heating methane with steam in the presence of a catalyst to produce hydrogen and , a mixture known as syngas, which can be used as fuel. The necessary reaction is difficult to achieve, however, and current industrial standard processes require high temperatures (700–1,000° C) and pressures (>20 bar).

Baowen Zhou and colleagues present a photocatalysis platform that enables syngas production in a quartz chamber under illuminated by a 300 W Xenon lamp without any other energy inputs. The platform is based on group III nitride nanowires, fitted with rhodium nanoclusters.

Analyses by , microscopic characterizations, and in situ spectroscopic measurements show that these RhOx/GaN@InGaN nanowires simultaneously activate both methane and water.

Just add light, and methane is split into methyl anions and hydrogen species. Water is split into hydrogen species and hydroxide.

In subsequent reactions catalyzed by rhodium and gallium nitride, these molecules recombine into syngas. Using their system, the authors achieved a production rate of 8.1 mol syngas per gram of and 10,493 mol syngas per mol rhodium oxides over 300 minutes of stability test.

More information: Dongke Li et al, A semiconducting hybrid of RhOx/GaN@InGaN for simultaneous activation of methane and water toward syngas by photocatalysis, PNAS Nexus (2023). DOI: 10.1093/pnasnexus/pgad347

Journal information: PNAS Nexus
Provided by PNAS Nexus
Citation: Syngas photocatalysis made easy (2023, November 22) retrieved 24 May 2024 from
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