Strontium-Cobaltite-Based Perovskite (SrCoO 3 ) for Solar-Driven Interfacial Evaporation Systems for Clean Water Generation.
Miao HeMuneerah AlomarAreej S AlqarniNaila ArshadMuhammad AkbarMuhammad YousafMuhammad Sultan IrshadYuzheng LuQiang LiuPublished in: Nanomaterials (Basel, Switzerland) (2023)
Solar-driven evaporation technology is often used in areas with limited access to clean water, as it provides a low-cost and sustainable method of water purification. Avoiding salt accumulation is still a substantial challenge for continuous desalination. Here, an efficient solar-driven water harvester that consists of strontium-cobaltite-based perovskite (SrCoO 3 ) anchored on nickel foam (SrCoO 3 @NF) is reported. Synced waterways and thermal insulation are provided by a superhydrophilic polyurethane substrate combined with a photothermal layer. The structural photothermal properties of SrCoO 3 perovskite have been extensively investigated through state-of-the-art experimental investigations. Multiple incident rays are induced inside the diffuse surface, permitting wideband solar absorption (91%) and heat localization (42.01 °C @ 1 sun). Under 1 kW m -2 solar intensity, the integrated SrCoO 3 @NF solar evaporator has an outstanding evaporation rate (1.45 kg/m 2 h) and solar-to-vapor conversion efficiency (86.45% excluding heat losses). In addition, long-term evaporation measurements demonstrate small variance under sea water, illustrating the system's working capacity for salt rejection (1.3 g NaCl/210 min), which is excellent for an efficient solar-driven evaporation application compared to other carbon-based solar evaporators. According to the findings of this research, this system offers significant potential for producing fresh water devoid of salt accumulation for use in industrial applications.
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