Investigating the correlation between flow dynamics and flow-induced voltage generation
The conversion of water current to voltage generation through graphene has gained interest in both basic physics and applications such as sensors and electricity generation systems. However, many aspects of the mechanism remain unclear. Recently, quantum-based momentum transfer theories have been re...
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Veröffentlicht in: | Applied physics letters 2024-10, Vol.125 (18) |
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creator | Takeda, Hikaru Iwamoto, Naoya Honda, Mitsuhiro Tanemura, Masaki Yamashita, Ichiro Komiya, Atsuki Okada, Takeru |
description | The conversion of water current to voltage generation through graphene has gained interest in both basic physics and applications such as sensors and electricity generation systems. However, many aspects of the mechanism remain unclear. Recently, quantum-based momentum transfer theories have been reported, but these often do not account for flow conditions. In this study, we investigated the correlation between the flow conditions of a liquid medium and the electrical conduction of graphene through experiments and numerical calculations. Our results suggest that the necessary condition is that the flow must be neither irregular nor purely laminar; instead, graphene responds to the transition process of the fluid. This finding supports the extension of current theories and presents valuable insights for both basic science and industrial applications. |
doi_str_mv | 10.1063/5.0230115 |
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subjects | Basic converters Electrical conduction Graphene Induced voltage Industrial applications Laminar flow Momentum transfer Water currents |
title | Investigating the correlation between flow dynamics and flow-induced voltage generation |
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