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Significance This work represents a significant advance in the scientific understanding of electronic transport in fluids containing conducting particles. We anticipate that our findings will have a considerable impact on… Click to show full abstract
Significance This work represents a significant advance in the scientific understanding of electronic transport in fluids containing conducting particles. We anticipate that our findings will have a considerable impact on emerging electrical energy storage technologies in which these fluids are found. Our work also has a potential impact on the design of next-generation grid-scale electrochemical storage and water deionization technologies due to the identified physical phenomenon that could impact other fields, including mechano-electric transduction, strain sensing, and neuromorphic computing.
Journal Title: Proceedings of the National Academy of Sciences of the United States of America
Year Published: 2022
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