Anomalously low dielectric constant of confined water

Laura Fumagalli; A. Esfandiar; Rene Fabregas; Sheng Hu; Pablo Ares; Amritha Janardanan; Qian Yang; Radha Boya; T Taniguchi; K Watanabe; G Gomila; Konstantin Novoselov; Andre Geim

doi:10.1126/science.aat4191

Anomalously low dielectric constant of confined water

Laura Fumagalli, A. Esfandiar, Rene Fabregas, Sheng Hu, Pablo Ares, Amritha Janardanan, Qian Yang, Radha Boya, T Taniguchi, K Watanabe, G Gomila, Konstantin Novoselov, Andre Geim

Condensed Matter Physics Group

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Abstract

The dielectric constant ε of interfacial water has been predicted to be smaller than that of bulk water (ε ≈ 80) because the rotational freedom of water dipoles is expected to decrease near surfaces, yet experimental evidence is lacking. We report local capacitance measurements for water confined between two atomically flat walls separated by various distances down to 1 nanometer. Our experiments reveal the presence of an interfacial layer with vanishingly small polarization such that its out-of-plane ε is only ~2. The electrically dead layer is found to be two to three molecules thick. These results provide much-needed feedback for theories describing water-mediated surface interactions and the behavior of interfacial water, and show a way to investigate the dielectric properties of other fluids and solids under extreme confinement.

Original language	English
Pages (from-to)	1339-1342
Number of pages	4
Journal	Science
Volume	360
Issue number	6395
Early online date	22 Jun 2018
DOIs	https://doi.org/10.1126/science.aat4191
Publication status	Published - 22 Jun 2018

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Accepted Manuscript_ Fumagalli et al Science 2018Accepted author manuscript, 2.76 MB

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title = "Anomalously low dielectric constant of confined water",

abstract = "The dielectric constant ε of interfacial water has been predicted to be smaller than that of bulk water (ε ≈ 80) because the rotational freedom of water dipoles is expected to decrease near surfaces, yet experimental evidence is lacking. We report local capacitance measurements for water confined between two atomically flat walls separated by various distances down to 1 nanometer. Our experiments reveal the presence of an interfacial layer with vanishingly small polarization such that its out-of-plane ε is only ~2. The electrically dead layer is found to be two to three molecules thick. These results provide much-needed feedback for theories describing water-mediated surface interactions and the behavior of interfacial water, and show a way to investigate the dielectric properties of other fluids and solids under extreme confinement.",

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T1 - Anomalously low dielectric constant of confined water

AU - Fumagalli, Laura

AU - Esfandiar, A.

AU - Fabregas, Rene

AU - Hu, Sheng

AU - Ares, Pablo

AU - Janardanan, Amritha

AU - Yang, Qian

AU - Boya, Radha

AU - Taniguchi, T

AU - Watanabe, K

AU - Gomila, G

AU - Novoselov, Konstantin

AU - Geim, Andre

PY - 2018/6/22

Y1 - 2018/6/22

N2 - The dielectric constant ε of interfacial water has been predicted to be smaller than that of bulk water (ε ≈ 80) because the rotational freedom of water dipoles is expected to decrease near surfaces, yet experimental evidence is lacking. We report local capacitance measurements for water confined between two atomically flat walls separated by various distances down to 1 nanometer. Our experiments reveal the presence of an interfacial layer with vanishingly small polarization such that its out-of-plane ε is only ~2. The electrically dead layer is found to be two to three molecules thick. These results provide much-needed feedback for theories describing water-mediated surface interactions and the behavior of interfacial water, and show a way to investigate the dielectric properties of other fluids and solids under extreme confinement.

AB - The dielectric constant ε of interfacial water has been predicted to be smaller than that of bulk water (ε ≈ 80) because the rotational freedom of water dipoles is expected to decrease near surfaces, yet experimental evidence is lacking. We report local capacitance measurements for water confined between two atomically flat walls separated by various distances down to 1 nanometer. Our experiments reveal the presence of an interfacial layer with vanishingly small polarization such that its out-of-plane ε is only ~2. The electrically dead layer is found to be two to three molecules thick. These results provide much-needed feedback for theories describing water-mediated surface interactions and the behavior of interfacial water, and show a way to investigate the dielectric properties of other fluids and solids under extreme confinement.

U2 - 10.1126/science.aat4191

DO - 10.1126/science.aat4191

M3 - Article

SN - 0036-8075

VL - 360

SP - 1339

EP - 1342

JO - Science

JF - Science

IS - 6395

ER -

Anomalously low dielectric constant of confined water

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