Optimizing Membranes for Osmotic Power Generation
- PMID: 37010943
- DOI: 10.1002/anie.202303582
Optimizing Membranes for Osmotic Power Generation
Abstract
The design of ion-selective membranes is the key towards efficient reverse electrodialysis-based osmotic power conversion. The tradeoff between ion selectivity (output voltage) and ion permeability (output current) in existing porous membranes, however, limits the upgradation of power generation efficiency for practical applications. Thus, we provide the simple guidelines based on fundamentals of ion transport in nanofluidics for promoting osmotic power conversion. In addition, we discuss strategies for optimizing membrane performance through analysis of various material parameters in membrane design, such as pore size, surface charge, pore density, membrane thickness, ion pathway, pore order, and ionic diode effect. Lastly, a perspective on the future directions of membrane design to further maximize the efficiency of osmotic power conversion is outlined.
Keywords: Ion Transport; Ion-Selective Membrane; Nanofluidics; Nanopore; Salinity Gradient Power.
© 2023 Wiley-VCH GmbH.
References
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- 111-2222-E-035-006-MY3/National Science and Technology Council, Taiwan
- 111-2628-E-011-013/National Science and Technology Council, Taiwan
- 111-2124-M-002-021/National Science and Technology Council, Taiwan
- 112-2923-E-011-003-MY3/National Science and Technology Council, Taiwan
- 110-2223-E-011-003-MY3/National Science and Technology Council, Taiwan
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