Abstract

Abstract Plasmon catalysis is an interesting technology concept for powering chemical processes with light. Here, we report the use of various Al 2 O 3 ‐supported Ru spheroidal nanoparticles as catalyst for the low‐temperature conversion of CO 2 and H 2 to CH 4 (Sabatier reaction), using sunlight as energy source. At high loadings of Ru spheroidal nanoparticles (5.9 % w/w), we observe a sharp increase in the rate of the sunlight powered reaction when compared to the reaction in dark at the same catalyst bed temperature. Based on our results we exclude plasmon coupling as cause, and attribute the rate enhancement to collective photothermal heating of the Al 2 O 3 ‐supported Ru nanoparticles.