2018
DOI: 10.1126/sciadv.aau1665
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Unique ion rectification in hypersaline environment: A high-performance and sustainable power generator system

Abstract: Ion-selective Janus membranes with one-way ionic transport in hypersaline solution approach efficient osmotic energy conversion.

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Cited by 228 publications
(262 citation statements)
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“…Under a reverse concentration gradient with low concentration in the ANF side, the corresponding short-circuit current and open-circuit voltage change to 2.14 μA and 71.6 mV, and the calculated inner resistance increases by~50%, which largely suppresses the power generation performance. These observation indicates that the preferential direction of ion transport caused by ionic diode effect still exists under a salinity gradient 25 . Hereafter, the concentration gradient where high concentration is located in the ANF side is defined as the forward gradient, whereas the one where high concentration is located in the gel side is defined as the backward gradient.…”
Section: Gel Lonmentioning
confidence: 71%
See 1 more Smart Citation
“…Under a reverse concentration gradient with low concentration in the ANF side, the corresponding short-circuit current and open-circuit voltage change to 2.14 μA and 71.6 mV, and the calculated inner resistance increases by~50%, which largely suppresses the power generation performance. These observation indicates that the preferential direction of ion transport caused by ionic diode effect still exists under a salinity gradient 25 . Hereafter, the concentration gradient where high concentration is located in the ANF side is defined as the forward gradient, whereas the one where high concentration is located in the gel side is defined as the backward gradient.…”
Section: Gel Lonmentioning
confidence: 71%
“…The synergistic effect between the two layers with inherent asymmetric structure, charge, and wettability would contribute to novel ionic transport properties such as ionic diode effect [21][22][23] . This nonlinear nanofluidic behavior allows unidirectional ion transport and thus could prohibit the flow of any current back into membrane during the energy conversion process, largely decreasing the dissipation of Gibbs free energy as Joule heat and ultimately enhancing the power generation 14,[24][25][26] . In the past years, diverse heterogeneous membranes including organic/organic, inorganic/inorganic, and organic/inorganic hybrid system have been constructed [27][28][29][30][31] .…”
mentioning
confidence: 99%
“…The bipolar membrane fabricated with SC has been reported previously and the resulted asymmetric membrane showed great energy conversion performance. [30][31][32] Moreover, it is notable that the PES-SO 3 H and PES-OHIm layers originate from the same PES precursor ( Figure S2) in this work, which could benefit the bipolar membrane design. Firstly, compared to the previous works, this design shows the economical aspect similar to the homogeneous membrane.…”
mentioning
confidence: 74%
“…6). Moreover, if the Na + ions are replaced by K + ions with higher mobility, the power density could be further enhanced to 34 38 .…”
Section: Resultsmentioning
confidence: 99%