TiN nanoparticles/OMS-2 nanorods/carbonized wood composites for simultaneous solar water evaporation and abatement of volatile organic compound from undrinkable water

Abstract

Severe air pollution, water pollution, and climate change have led to an increasing shortage of clean water. Solar interface water evaporation is becoming important to obtain distilled water from undrinkable water such as seawater and contaminated water. However, the as-obtained distilled water usually contains excessive volatile organic compounds (VOCs), which are serious harmful to human health. In this article, a novel bi-functional material is prepared by depositing manganese oxide octahedral molecular sieve (OMS-2) nanorods on carbonized wood (CW), which can simultaneously realize solar water evaporation and VOCs abatement. OMS-2 nanorods synthesized at lower hydrothermal temperature possess higher oxygen vacancy defects, which can improve not only the solar absorption and solar water evaporation rate but also solar driven photothermo-catalytic activity for the oxidation of VOCs. Doping TiN nanoparticles into CW/OMS-2 can further enhance the solar water evaporation performances and VOCs removal efficiencies because of its excellent solar absorption ability, which can further increase the temperature of OMS-2 catalyst and accelerate the solar water evaporation and the toluene degradation. The as-designed bifunctional composites possess an outstanding water evaporation rate over 1.436 kg m−2 h−1 and a toluene removal efficiency of 92.96% under 2.5 sun irradiation, indicating exciting prospects for efficiently producing clean water from undrinkable water with VOCs.