In situ observation of fast surface dynamics during the vapor-deposition of a stable organic glass

E. Thoms; J. P. Gabriel; A. Guiseppi-Elie; M. D. Ediger; R. Richert

doi:10.1039/d0sm01916j

In situ observation of fast surface dynamics during the vapor-deposition of a stable organic glass

E. Thoms, J. P. Gabriel, A. Guiseppi-Elie, M. D. Ediger, R. Richert

Molecular Sciences, School of (SMS)

Research output: Contribution to journal › Article › peer-review

12 Scopus citations

Abstract

By measuring the increments of dielectric capacitance (ΔC) and dissipation (Δtan δ) during physical vapor deposition of a 110 nm film of a molecular glass former, we provide direct evidence of the mobile surface layer that is made responsible for the extraordinary properties of vapor deposited glasses. Depositing at a rate of 0.1 nm s-1 onto a substrate at Tdep = 75 K = 0.82Tg, we observe a 2.5 nm thick surface layer with an average relaxation time of 0.1 s, while the glass growing underneath has a high kinetic stability. The level of Δtan δ continues to decrease for thousands of seconds after terminating the deposition process, indicating a slow aging-like increase in packing density near the surface. At very low deposition temperatures, 32 and 42 K, the surface layer thicknesses and mobilities are reduced, as are the kinetic stabilities.

Original language	English (US)
Pages (from-to)	10860-10864
Number of pages	5
Journal	Soft Matter
Volume	16
Issue number	48
DOIs	https://doi.org/10.1039/d0sm01916j
State	Published - Dec 28 2020

ASJC Scopus subject areas

General Chemistry
Condensed Matter Physics

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10.1039/d0sm01916j

Cite this

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title = "In situ observation of fast surface dynamics during the vapor-deposition of a stable organic glass",

abstract = "By measuring the increments of dielectric capacitance (ΔC) and dissipation (Δtan δ) during physical vapor deposition of a 110 nm film of a molecular glass former, we provide direct evidence of the mobile surface layer that is made responsible for the extraordinary properties of vapor deposited glasses. Depositing at a rate of 0.1 nm s-1 onto a substrate at Tdep = 75 K = 0.82Tg, we observe a 2.5 nm thick surface layer with an average relaxation time of 0.1 s, while the glass growing underneath has a high kinetic stability. The level of Δtan δ continues to decrease for thousands of seconds after terminating the deposition process, indicating a slow aging-like increase in packing density near the surface. At very low deposition temperatures, 32 and 42 K, the surface layer thicknesses and mobilities are reduced, as are the kinetic stabilities.",

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T1 - In situ observation of fast surface dynamics during the vapor-deposition of a stable organic glass

AU - Thoms, E.

AU - Gabriel, J. P.

AU - Guiseppi-Elie, A.

AU - Ediger, M. D.

AU - Richert, R.

N1 - Publisher Copyright: © The Royal Society of Chemistry.

PY - 2020/12/28

Y1 - 2020/12/28

N2 - By measuring the increments of dielectric capacitance (ΔC) and dissipation (Δtan δ) during physical vapor deposition of a 110 nm film of a molecular glass former, we provide direct evidence of the mobile surface layer that is made responsible for the extraordinary properties of vapor deposited glasses. Depositing at a rate of 0.1 nm s-1 onto a substrate at Tdep = 75 K = 0.82Tg, we observe a 2.5 nm thick surface layer with an average relaxation time of 0.1 s, while the glass growing underneath has a high kinetic stability. The level of Δtan δ continues to decrease for thousands of seconds after terminating the deposition process, indicating a slow aging-like increase in packing density near the surface. At very low deposition temperatures, 32 and 42 K, the surface layer thicknesses and mobilities are reduced, as are the kinetic stabilities.

AB - By measuring the increments of dielectric capacitance (ΔC) and dissipation (Δtan δ) during physical vapor deposition of a 110 nm film of a molecular glass former, we provide direct evidence of the mobile surface layer that is made responsible for the extraordinary properties of vapor deposited glasses. Depositing at a rate of 0.1 nm s-1 onto a substrate at Tdep = 75 K = 0.82Tg, we observe a 2.5 nm thick surface layer with an average relaxation time of 0.1 s, while the glass growing underneath has a high kinetic stability. The level of Δtan δ continues to decrease for thousands of seconds after terminating the deposition process, indicating a slow aging-like increase in packing density near the surface. At very low deposition temperatures, 32 and 42 K, the surface layer thicknesses and mobilities are reduced, as are the kinetic stabilities.

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In situ observation of fast surface dynamics during the vapor-deposition of a stable organic glass

Abstract

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