Results 281 to 290 of about 161,093 (329)
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ACS Applied Materials and Interfaces, 2021
As an important nanofluidic device, an artificial ion nanochannel could selectively transport ions inside its nanoconfinement space and the surface charge of the pore wall.
Yuting Wang, Huaxiang Chen, J. Zhai
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As an important nanofluidic device, an artificial ion nanochannel could selectively transport ions inside its nanoconfinement space and the surface charge of the pore wall.
Yuting Wang, Huaxiang Chen, J. Zhai
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Sandwich “Ion Pool”-Structured Power Gating for Salinity Gradient Generation Devices
ACS Applied Materials & Interfaces, 2021Nanoconfinement ion transport, similar to that of biological ion channels, has attracted widespread research interest and offers prospects for broad applications in energy conversion and nanofluidic diodes. At present, various methods were adopted to improve the rectification performance of nanofluidic diodes including geometrical, chemical, and ...
Lulu Fu +4 more
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Advanced Energy and Sustainability Research
This study explores strategies to maximize salinity gradient power (SGP) generation using reverse electrodialysis (RED), focusing on key operating parameters under Swedish environmental conditions.
Y. Mohammadi +5 more
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This study explores strategies to maximize salinity gradient power (SGP) generation using reverse electrodialysis (RED), focusing on key operating parameters under Swedish environmental conditions.
Y. Mohammadi +5 more
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Angewandte Chemie
Ion-selective nanochannel membranes assembled from two-dimensional (2D) nanosheets hold immense promise for power conversion using salinity gradient.
Abuduheiremu Awati +11 more
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Ion-selective nanochannel membranes assembled from two-dimensional (2D) nanosheets hold immense promise for power conversion using salinity gradient.
Abuduheiremu Awati +11 more
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Energy, 1978
Abstract A large source of energy exists at the interface between water bodies of different salinities. Two techniques, pressure-retarded osmosis and reverse electrodialysis, appear to be promising entrees into this energy source. Although the present cost of membranes suitable to these methods is too high, a research and development effort should ...
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Abstract A large source of energy exists at the interface between water bodies of different salinities. Two techniques, pressure-retarded osmosis and reverse electrodialysis, appear to be promising entrees into this energy source. Although the present cost of membranes suitable to these methods is too high, a research and development effort should ...
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Salinity Gradient Power Experiment Using Reverse Electrodialysis
Volume 6A: Energy, 2014A relatively new form of alternative energy known as reverse electrodialysis (RED) appears to be one of the promising energy sources of the future. This technology harvests the energy stored in the salinity gradient between two different liquids, and converts it directly into electric power.
Sean Amaral +3 more
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, 2020
Salinity gradient power can be a very attractive renewable energy system because electricity is generated by salt concentration difference between two solutions without any pollutant emission.
Jaewon Jang +5 more
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Salinity gradient power can be a very attractive renewable energy system because electricity is generated by salt concentration difference between two solutions without any pollutant emission.
Jaewon Jang +5 more
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Salinity gradient power: influences of temperature and nanopore size
Nanoscale, 2016Harvesting electrical energy by nanofluidic reverse electrodialysis.
Tseng, Shiojenn. +3 more
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Salinity-gradient vapor-pressure power conversion
Energy, 1982Abstract The interface between water bodies of different salinities represents a large unexploited source of energy. An energy conversion approach that does not require the use of membranes but uses the differences in vapor pressure between solutions is examined.
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Reverse electrodialysis in bilayer nanochannels: salinity gradient-driven power generation
Physical Chemistry Chemical Physics, 2018To evaluate the possibility of nano-fluidic reverse electrodialysis (RED) for salinity gradient energy harvesting, we consider the behavior of ion transportation in a bilayer cylindrical nanochannel with different sized nanopores connecting two reservoirs at different NaCl concentrations.
Rui Long +3 more
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