Negative Dielectric Constant of Water at a Metal Interface

Bolton Tran; Yuxing Zhou; Michael J. Janik; Scott T. Milner

doi:10.1103/PhysRevLett.131.248001

Negative Dielectric Constant of Water at a Metal Interface

Bolton Tran, Yuxing Zhou, Michael J. Janik, Scott T. Milner

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27 Scopus citations

Abstract

Water polarizability at a metal interface plays an essential role in electrochemistry. We devise a classical molecular dynamics approach with an efficient description of metal polarization and a novel ac field method to measure the local dielectric response of interfacial water. Water adlayers next to the metal surface exhibit higher-than-bulk in-plane and negative out-of-plane dielectric constants, the latter corresponding physically to overscreening of the applied field. If we account for the gap region at the interface, the average out-of-plane dielectric constant is quite low (ϵ ≈2), in agreement with reported measurements on confined thin films.

Original language	English (US)
Article number	248001
Journal	Physical review letters
Volume	131
Issue number	24
DOIs	https://doi.org/10.1103/PhysRevLett.131.248001
State	Published - Dec 15 2023

All Science Journal Classification (ASJC) codes

General Physics and Astronomy

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10.1103/PhysRevLett.131.248001

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title = "Negative Dielectric Constant of Water at a Metal Interface",

abstract = "Water polarizability at a metal interface plays an essential role in electrochemistry. We devise a classical molecular dynamics approach with an efficient description of metal polarization and a novel ac field method to measure the local dielectric response of interfacial water. Water adlayers next to the metal surface exhibit higher-than-bulk in-plane and negative out-of-plane dielectric constants, the latter corresponding physically to overscreening of the applied field. If we account for the gap region at the interface, the average out-of-plane dielectric constant is quite low (ϵ ≈2), in agreement with reported measurements on confined thin films.",

author = "Bolton Tran and Yuxing Zhou and Janik, \{Michael J.\} and Milner, \{Scott T.\}",

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doi = "10.1103/PhysRevLett.131.248001",

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AU - Tran, Bolton

AU - Zhou, Yuxing

AU - Janik, Michael J.

AU - Milner, Scott T.

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Y1 - 2023/12/15

N2 - Water polarizability at a metal interface plays an essential role in electrochemistry. We devise a classical molecular dynamics approach with an efficient description of metal polarization and a novel ac field method to measure the local dielectric response of interfacial water. Water adlayers next to the metal surface exhibit higher-than-bulk in-plane and negative out-of-plane dielectric constants, the latter corresponding physically to overscreening of the applied field. If we account for the gap region at the interface, the average out-of-plane dielectric constant is quite low (ϵ ≈2), in agreement with reported measurements on confined thin films.

AB - Water polarizability at a metal interface plays an essential role in electrochemistry. We devise a classical molecular dynamics approach with an efficient description of metal polarization and a novel ac field method to measure the local dielectric response of interfacial water. Water adlayers next to the metal surface exhibit higher-than-bulk in-plane and negative out-of-plane dielectric constants, the latter corresponding physically to overscreening of the applied field. If we account for the gap region at the interface, the average out-of-plane dielectric constant is quite low (ϵ ≈2), in agreement with reported measurements on confined thin films.

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JO - Physical review letters

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Negative Dielectric Constant of Water at a Metal Interface

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