Bioinspired membranes are advantageous in capturing the osmotic energy.However,the conventional hybrid membranes possess low harvesting power density due to their low interfacial ionic transport efficiency and high in...Bioinspired membranes are advantageous in capturing the osmotic energy.However,the conventional hybrid membranes possess low harvesting power density due to their low interfacial ionic transport efficiency and high internal resistance.Herein,a new kind of hybrid membranes consisting of porous polymer and flexible organic frameworks was developed.The 3D porous framework enables ions to flux with high efficiency at the polymer-framework interface,resulting in high osmotic energy harvesting efficiency.By systematically screening the pore size of the frameworks,the output power density as high as 5.7 W/m^(2) was achieved under 50-fold KCl salinity gradient.展开更多
基金Financial support from the National R&D Program of China(Grant No.2017YFA0206901)the National Natural Science Foundation of China(NSFC,Grant Nos.21725202,21921003,and 21971046)the Science and Technology Commission of Shanghai Municipality(STCSM,Grant No.22JC1403700)is gratefully acknowledged。
文摘Bioinspired membranes are advantageous in capturing the osmotic energy.However,the conventional hybrid membranes possess low harvesting power density due to their low interfacial ionic transport efficiency and high internal resistance.Herein,a new kind of hybrid membranes consisting of porous polymer and flexible organic frameworks was developed.The 3D porous framework enables ions to flux with high efficiency at the polymer-framework interface,resulting in high osmotic energy harvesting efficiency.By systematically screening the pore size of the frameworks,the output power density as high as 5.7 W/m^(2) was achieved under 50-fold KCl salinity gradient.
