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Small, 2021
AbstractLarge‐scale salinity gradient power energy harvesting has generated broad attention in recent years, in which affordable ion‐selective membranes (ISMs) are essential for its practical implementation. In this study, for the first time, ISMs derived from natural loofah sponge are reported, which have features of high hydrophilicity, superior ion ...
Pengcheng Luan +7 more
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AbstractLarge‐scale salinity gradient power energy harvesting has generated broad attention in recent years, in which affordable ion‐selective membranes (ISMs) are essential for its practical implementation. In this study, for the first time, ISMs derived from natural loofah sponge are reported, which have features of high hydrophilicity, superior ion ...
Pengcheng Luan +7 more
openaire +3 more sources
Salinity gradient power: Optimization of nanopore size
Electrochimica Acta, 2016Abstract Taking account of the effect of diffusioosmotic flow, the salinity gradient power based on reverse electrodialysis is simulated by considering a nanopore connecting two identical, large reservoirs filled with an aqueous sodium chloride solution having different concentrations.
Shiojenn Tseng +3 more
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Chitin Exfoliation Nanoengineering for Enhanced Salinity Gradient Power Conversion
Advanced Functional MaterialsAbstractRapid advancements in nano‐exfoliation and dissolution strategies have effectively disassembled hierarchical biomass materials into nanosheets, nanofibers, and even atomic‐scale molecular chains, making them highly applicable in osmotic energy harvesting.
Ting Huang +12 more
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Anomalous pH‐Dependent Nanofluidic Salinity Gradient Power
Small, 2017AbstractPrevious studies on nanofluidic salinity gradient power (NSGP), where energy associated with the salinity gradient can be harvested with ion‐selective nanopores, all suggest that nanofluidic devices having higher surface charge density should have higher performance, including osmotic power and conversion efficiency.
Li‐Hsien Yeh +3 more
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Salinity‐Gradient Power Generation with Ionized Wood Membranes
Advanced Energy Materials, 2019AbstractReverse electrodialysis (RED) is known as an efficient way of converting the salinity gradient between river water and sea water into energy. However, the high cost and complex fabrication of the necessary ion exchange membranes greatly prohibit the development of the RED process. For the first time, an ionized wood membrane is demonstrated for
Qing‐Yun Wu +8 more
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High-Performance Ionic Diode Membrane for Salinity Gradient Power Generation
Journal of the American Chemical Society, 2014Salinity difference between seawater and river water is a sustainable energy resource that catches eyes of the public and the investors in the background of energy crisis. To capture this energy, interdisciplinary efforts from chemistry, materials science, environmental science, and nanotechnology have been made to create efficient and economically ...
Jun, Gao +5 more
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Numerical simulation of salinity gradient power generation using reverse electrodialysis
Desalination, 2021Abstract Reverse electrodialysis (RED) is a promising technology that directly converts salinity gradient energy into electrical energy through the directional permeation of ions across the ion exchange membranes (IEMs). Fundamental understanding of the multi-physical RED process requires a reliable description of all the related phenomena involved ...
Dongxu Jin +4 more
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Nano Energy, 2018
Harvesting electric power from the salinity gradient has drawn the eyes of researchers in recent years, because it is sustainable and environmentally benign.
Ruirui Li +4 more
semanticscholar +3 more sources
Harvesting electric power from the salinity gradient has drawn the eyes of researchers in recent years, because it is sustainable and environmentally benign.
Ruirui Li +4 more
semanticscholar +3 more sources
Reference Module in Earth Systems and Environmental Sciences, 2022
Tiree Withers, Simon P. Neill
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Tiree Withers, Simon P. Neill
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ACS Applied Materials and Interfaces, 2023
Capturing the abundant salinity gradient power into electric power by nanofluidic systems has attracted increasing attention and has shown huge potential to alleviate the energy crisis and environmental pollution problems. However, not only the imbalance
Abuduheiremu Awati +12 more
semanticscholar +1 more source
Capturing the abundant salinity gradient power into electric power by nanofluidic systems has attracted increasing attention and has shown huge potential to alleviate the energy crisis and environmental pollution problems. However, not only the imbalance
Abuduheiremu Awati +12 more
semanticscholar +1 more source