TY - JOUR
T1 - Seawater desalination derived entirely from ocean biomass
AU - Liu, Xiaojie
AU - Tian, Yanpei
AU - Wu, Yanzi
AU - Caratenuto, Andrew
AU - Chen, Fangqi
AU - Cui, Shuang
AU - DeGiorgis, Joseph A.
AU - Wan, Yinsheng
AU - Zheng, Yi
N1 - Generated from Scopus record by KAUST IRTS on 2023-09-23
PY - 2021/10/21
Y1 - 2021/10/21
N2 - Solar-driven interfacial evaporation shows great prospects for seawater desalination with its rapid fast evaporation rate and high photothermal conversion efficiency. Here, a sustainable, biodegradable, non-toxic, and highly efficient full ocean biomass-based solar-driven evaporator is reported, which is composed of chitosan (CS) hydrogel as the hydratable skeleton and cuttlefish ink (CI) as the photothermal material. Under solar irradiation, the cuttlefish ink powder harvests solar energy and heats the surrounding water. Simultaneously, the water in the three-dimensional network of chitosan hydrogel is rapidly replenished by the interconnected porous structure and the hydrophilic functional groups attached to the polymer chains. With its enlarged evaporation surface, high solar absorptance, adequate water transportation, good salt drainage, and heat localization, the CI/CS-based evaporator achieves a remarkable evaporation rate of 4.1 kg m−2h−1under one sun irradiance (1 kW m−2) with high-quality freshwater yields. This full ocean biomass-based evaporator with abundant raw material availability provides new possibilities for an efficient, stable, sustainable, and environmentally friendly solar evaporator with guaranteed water quality.
AB - Solar-driven interfacial evaporation shows great prospects for seawater desalination with its rapid fast evaporation rate and high photothermal conversion efficiency. Here, a sustainable, biodegradable, non-toxic, and highly efficient full ocean biomass-based solar-driven evaporator is reported, which is composed of chitosan (CS) hydrogel as the hydratable skeleton and cuttlefish ink (CI) as the photothermal material. Under solar irradiation, the cuttlefish ink powder harvests solar energy and heats the surrounding water. Simultaneously, the water in the three-dimensional network of chitosan hydrogel is rapidly replenished by the interconnected porous structure and the hydrophilic functional groups attached to the polymer chains. With its enlarged evaporation surface, high solar absorptance, adequate water transportation, good salt drainage, and heat localization, the CI/CS-based evaporator achieves a remarkable evaporation rate of 4.1 kg m−2h−1under one sun irradiance (1 kW m−2) with high-quality freshwater yields. This full ocean biomass-based evaporator with abundant raw material availability provides new possibilities for an efficient, stable, sustainable, and environmentally friendly solar evaporator with guaranteed water quality.
UR - http://xlink.rsc.org/?DOI=D1TA05068K
UR - http://www.scopus.com/inward/record.url?scp=85117076403&partnerID=8YFLogxK
U2 - 10.1039/d1ta05068k
DO - 10.1039/d1ta05068k
M3 - Article
SN - 2050-7496
VL - 9
SP - 22313
EP - 22324
JO - JOURNAL OF MATERIALS CHEMISTRY A
JF - JOURNAL OF MATERIALS CHEMISTRY A
IS - 39
ER -