2024
DOI: 10.1021/cbe.3c00119
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Harnessing Solar-Salinity Synergy with Porphyrin-Based Ionic Covalent-Organic-Framework Membranes for Enhanced Ionic Power Generation

Weipeng Xian,
Changjia Zhu,
Zhuozhi Lai
et al.

Abstract: Nature seamlessly integrates multiple functions for energy conversion, utilizing solar energy and salinity gradients as the primary drivers for ionic power generation. The creation of artificial membranes capable of finely controlling ion diffusion within nanoscale channels, driven by diverse forces, remains a challenging endeavor. In this study, we present an innovative approach: an ionic covalent-organic framework (COF) membrane constructed using chromophoric porphyrin units. The incorporation of ionic group… Show more

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“…With light irradiation, both voltage and current increased, leading to a power density enhancement to 69.6 W/m 2 an improvement of 30% over the baseline . This enhancement was also observed in a porphyrin-based anionic membrane (COF-PtaDha-SO 3 K), highlighting its versatility …”
Section: Construction Of Cof Membranes For Enhanced Ion Selectivitymentioning
confidence: 99%
“…With light irradiation, both voltage and current increased, leading to a power density enhancement to 69.6 W/m 2 an improvement of 30% over the baseline . This enhancement was also observed in a porphyrin-based anionic membrane (COF-PtaDha-SO 3 K), highlighting its versatility …”
Section: Construction Of Cof Membranes For Enhanced Ion Selectivitymentioning
confidence: 99%