Results 101 to 110 of about 501 (122)
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Electric Power from Differences in Salinity: The Dialytic Battery
Science, 1976An array of alternating anion and cation exchange membranes can be used to generate electric power from the free energy of mixing of river and sea waters. A simple mathematical model, which predicts experimental results well, is useful in exploring conditions for optimization of the process.
J N, Weinstein, F B, Leitz
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Energy, 2007
Abstract Experimental study on the concentration difference cell between seawater and river water (dialytic battery) has been made with special attention to the transient change in the power output. The cell consists of 59 compartments made with 29 ion-exchange membrane pairs, each of which has an effective area of 80 cm 2 per sheet.
F. Suda, T. Matsuo, D. Ushioda
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Abstract Experimental study on the concentration difference cell between seawater and river water (dialytic battery) has been made with special attention to the transient change in the power output. The cell consists of 59 compartments made with 29 ion-exchange membrane pairs, each of which has an effective area of 80 cm 2 per sheet.
F. Suda, T. Matsuo, D. Ushioda
openaire +1 more source
Nanostructuring versus microstructuring in battery electrodes
Nature Reviews Materials, 2022Rishabh Jain, Shyam Sharma
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Fluorination in advanced battery design
Nature Reviews Materials, 2023, Lianzhou Wang, Craig Hawker
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Artificial Intelligence Applied to Battery Research: Hype or Reality?
Chemical Reviews, 2022Teo Lombardo +2 more
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Design strategies for nonaqueous multivalent-ion and monovalent-ion battery anodes
Nature Reviews Materials, 2020Matthew Li, Jun Lu, Xiulei Ji
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Lithium battery chemistries enabled by solid-state electrolytes
Nature Reviews Materials, 2017Arumugam Manthiram +2 more
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Designing polymers for advanced battery chemistries
Nature Reviews Materials, 2019Jeffrey Lopez, David G Mackanic
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