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Heterogeneous membranes play a crucial role in osmotic energy conversion by effectively reducing concentration polarization. However, most heterogeneous membranes mitigate concentration polarization through an asymmetric charge distribution, resulting in compromised ion selectivity. Herein, hetero‐nanochannels with asymmetric wettability composed of 2D mesoporous carbon and graphene oxide are constructed...
Osmotic energy from the salinity gradients represents a promising energy resource with stable and sustainable characteristics. Nanofluidic membranes can be considered as powerful alternatives to the traditional low‐performance ion exchange membrane to achieve high‐efficiency osmotic energy harvesting. However, the development of a highly efficient and easily scalable core membrane component from low‐cost...