Abstract Collecting, cleaning and recycling oil from oil spills, especially highly viscous crude oil, are global challenges. Inspired by the solar energy-motivated viscosity-break, a 3D macrostructure CuFeSe2-loaded graphene aerogel (GA-CuFeSe2) is synthesized and exhibits a superior photothermal conversion capacity compared with other materials. GA-CuFeSe2 presents a strong optical absorbance (e.g. 24.94 Lg-1 cm−1 under 808 nm irradiation) and a high photothermal conversion efficiency (e.g. 79.62% under 532 nm). GA-CuFeSe2 heats the crude oil to approximately 100 °C within 10 s, and the absorption capacity is 18.63 g/g. The saturation diffusion time of crude oil into GA-CuFeSe2 is less than 300 s. The 3D macrostructures supported by graphene provide a versatile pore structure for the quick diffusion of high-viscosity fluids and a high corrosion resistance. The high-performance photothermal conversion and oil sorption, driven by solar power, highlight the practical use of this material for oil spills.

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