Conversion of CO2 into useful chemical feedstocks or fuels using solar energy is a promising technology to tackle both climate change and energy shortage challenges. Here, NiCo alloys derived from AlMg hydrotalcite are introduced for photothermal synergetic CO2 conversion with CH4 with an ultrahigh light‐to‐fuel efficiency of 33.8% and a low carbon deposition rate of 0.011 gc g−1
cat h−1. The ultrahigh efficiency is attributed to the high solar absorptance of NiCo alloys, unique synergistic catalysis of NiCo active sites, and the photo‐enhanced reactant activation. Inhibition of carbon formation lies in concurrent reduced energy barriers of CH* oxidation to CHO* and increased energy barriers of CH* dissociation to C*, enabled by the unique synergistic catalysis of NiCo alloys. Direct light illumination results in an obvious decrease of the apparent activation energy of CO2 conversion with CH4, making light‐driven CO2 conversion superior to conventional thermal‐driven techniques. Herein, a new platform for achieving efficient solar‐driven CO2 conversion with ultrahigh light‐to‐fuel efficiency based on NiCo alloy catalyst is provided and the way for sclable deployment of photothermal CO2‐to‐fuel techniques is paved.
CO2 conversion
In article number http://doi.wiley.com/10.1002/solr.202100185, Yimin Xuan and co‐workers introduced NiCo alloys derived from AlMg hydrotalcite for photothermal synergetic CO2 conversion with CH4 with ultrahigh light‐to‐fuel efficiency of 33.8% and low carbon deposition rate. The ultrahigh efficiency is attributed to the high solar absorptance of NiCo alloys, the unique synergistic catalysis of NiCo active sites, and the photo‐enhanced reactant activation.
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