Litcius/Paper detail

High-Index-Faceted NiS Confined in Sodium Alginate Aerogel Enhanced Photothermal Conversion for Water Purification

Hongxiang Shu, Congming Tang, Kai Ma, Xinli Li, Zhi Chen

2024ACS ES&T Water15 citationsDOI

Abstract

Solar-driven interfacial evaporation is widely viewed as a promising technology for seawater desalination and other wastewater purifications thanks to its low cost and environmentally friendly features. Here, we proposed high-index-faceted NiS (NiWO 4 -NiS) as a light absorbent for photothermal conversion. In water evaporation tests, the NiWO 4 -NiS flat membrane evaporator (NiWO 4 -NiS 2D evaporator) exhibited a markedly higher water evaporation rate than the ordinary NiS 2D evaporator. To disclose the reason, various characterizations were performed. UV–visible spectra confirmed a semiconductor character with band gap energies of 2.47 and 2.38 eV for NiS and NiWO 4 -NiS, respectively, in which a narrower band gap favored photothermal conversion by photothermal electronic excitation and localized surface plasmon resonance. The broad band spectra showed that NiWO 4 -NiS had stronger absorption and less reflectivity for light than NiS, which was more beneficial for effectively harvesting solar energy. The high-index-faceted NiS was confined in sodium alginate (SA) aerogel to form an interfacial water evaporator (NiWO 4 -NiS-aerogel 3D evaporator) and offered a far higher water evaporation rate than its corresponding NiWO 4 -NiS 2D evaporator. Under 1 sun, the NiWO 4 -NiS-aerogel 3D evaporator achieved a higher evaporation rate of 2.43 kg m –2 h –1 as well as an evaporation efficiency of 93.1% for pure water while the NiWO 4 -NiS 2D evaporator displayed an evaporation rate of 1.32 kg m –2 h –1 together with an evaporation efficiency of 80.6%. Furthermore, the NiWO 4 -NiS-aerogel 3D evaporator not only showed an excellent evaporation rate for seawater but also exhibited an excellent durability. In addition, for heavy-metal wastewater, the NiWO 4 -NiS-aerogel 3D evaporator also exhibited an excellent purification ability. More importantly, the water evaporation rate of the NiWO 4 -NiS-aerogel 3D evaporator achieved 1.54 kg m –2 h –1 under real solar irradiation during the outdoor test process, which outperformed most of the previous work. This work demonstrated that the high-index-faceted NiS possessed an excellent performance for light harvest, photothermal conversion, and water evaporation and presented a novel solution for seawater desalination and other wastewater purification.

Topics & Concepts

AerogelSodium alginatePhotothermal therapyMaterials scienceIndex (typography)Chemical engineeringSodiumNanotechnologyComputer scienceMetallurgyEngineeringWorld Wide WebSolar-Powered Water Purification MethodsAdvanced Photocatalysis TechniquesCopper-based nanomaterials and applications