【2021-10】合作通讯论文在Sustainable Energy & Fuels发表，Congratulations 丁洋和牛冉老师-Jiang Gong

Solar evaporation is considered as a promising approach for harvesting freshwater from non-potable water utilizing sustainable solar energy. Integrating photocatalytic effect into solar vapor generation benefits to substantially augment solar energy utilization for freshwater production and deal with the polluted water when it is used as source water. In this work, a synergistic photothermal-photochemical hybrid membrane is prepared by facilely dip-coating three-dimensional porous carbon nitride (CN) and two-dimensional MXene on a non-woven cotton cloth. The obtained hybrid membrane possesses high light absorption in the whole solar spectrum, decreased band gap, excellent photothermal conversion accompanied by a reduced non-radiative reflection loss, and enlarged photocurrent by forming Schottky junction between MXene and CN under simulated solar light. With the combined merits above, the hybrid membrane shows excellent photocatalytic performance and solar steam generation. Typically, the hybrid membrane degrades 95% Rhodamine B, 92% crystal violate and 72% methyl orange of 3 mg L^-1 under 1 kW m^-2 irradiation within 60 min. The water evaporation rate is up to 2.30 kg m^-2 h^-1 with a solar-to-vapor conversion efficiency of 98.9% under one-sun irradiation. Significantly, a large-scale solar conversion device is constructed for outdoor experiments to simultaneously harvest freshwater from contaminated water and degrade organic dyes in the source water. The daily freshwater production rate is 5.7 kg m^-2, meeting the requirement of two adults. This work demonstrates the promising potential of the hybrid membrane for potable water production and contaminated water treatment within one device and opens an avenue for application in energy conversion and storage.