Highly efficient solar steam evaporation via elastic polymer covalent organic frameworks monolith
Awei Hu, Yuan Zhao, Qing Hu, Chunhui Chen, Lu Xiao, Songlin Cui, Bo Liu
Abstract
Three-dimensional solar steam evaporators with efficient water purification performance have received increasing attention recently. Herein, elastic polymer covalent organic frameworks (PP-PEG) containing PEG chains with intriguing adaptability to guests are prepared by forming porphyrin rings. PP-PEG foams demonstrate full spectrum absorbance and excellent photothermal conversion properties. Through well-designed thermal management and optimization of the hydrophilicity and PEG chain length, we obtain a highly efficient solar evaporator with an evaporation rate of 4.89 kg m−2 h−1 under 1 sun in self-contained mode. The optimized solar evaporation rate is increased to 18.88 kg m−2 h−1 under 1 sun with a facile truncated cone reflector, exceeding all known solar steam evaporators. This innovative design holds immense promise for desalination and water purification owing to its simple preparation, high efficiency and durability. 3-d solar steam evaporators with efficient water purification performance have received increasing attention recently. Herein, porphyrin-PEG (PP-PEG) containing foams with good photothermal conversion properties are prepared. The PP-PEG foams achieve an evaporation rate of 4.89 kg m−2 h−1 under 1 sun.