Tailoring A Poly(ether sulfone) Bipolar Membrane: Osmotic‐Energy Generator with High Power Density
Osmotic energy, obtained through different concentrations of salt solutions, is recognized as a form of a sustainable energy source. In the past years, membranes derived from asymmetric aromatic compounds have attracted attention because of their low cost and high performance in osmotic energy conve...
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Veröffentlicht in: | Angewandte Chemie International Edition 2020-09, Vol.59 (40), p.17423-17428 |
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Sprache: | eng |
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Zusammenfassung: | Osmotic energy, obtained through different concentrations of salt solutions, is recognized as a form of a sustainable energy source. In the past years, membranes derived from asymmetric aromatic compounds have attracted attention because of their low cost and high performance in osmotic energy conversion. The membrane formation process, charging state, functional groups, membrane thickness, and the ion‐exchange capacity of the membrane could affect the power generation performance. Among asymmetric membranes, a bipolar membrane could largely promote the ion transport. Here, two polymers with the same poly(ether sulfone) main chain but opposite charges were synthesized to prepare bipolar membranes by a nonsolvent‐induced phase separation (NIPS) and spin‐coating (SC) method. The maximum power density of the bipolar membrane reaches about 6.2 W m−2 under a 50‐fold salinity gradient, and this result can serve as a reference for the design of bipolar membranes for osmotic energy conversion systems.
Herein, a new bipolar membrane, with different functional groups in the poly(ether sulfone) chain, is fabricated by a nonsolvent‐induced phase separation (NIPS) and spin‐coating (SC) method. The asymmetric structure helps to form distinct ion rectification and results in good power generation performance. |
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ISSN: | 1433-7851 1521-3773 |
DOI: | 10.1002/anie.202006320 |