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Main Authors: Tatsumi, Soichi, Nakamura, Yutaka, Miyazaki, Takashi, Kayano, Tomohiro, Kishimoto, Daiki, Fujiwara, Susumu, Yao, Haruhiko
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2410.13209
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author Tatsumi, Soichi
Nakamura, Yutaka
Miyazaki, Takashi
Kayano, Tomohiro
Kishimoto, Daiki
Fujiwara, Susumu
Yao, Haruhiko
author_facet Tatsumi, Soichi
Nakamura, Yutaka
Miyazaki, Takashi
Kayano, Tomohiro
Kishimoto, Daiki
Fujiwara, Susumu
Yao, Haruhiko
contents We have performed differential scanning calorimetric and synchrotron x-ray diffraction studies to elucidate the nature of vapor-deposited ultrastable phenolphthalein glass. As a result, we found that phenolphthalein forms the ultrastable glass by depositing at 313 K, which is about 0.86 times the ordinal glass transition temperature of 361 K. As previous ultrastable glass studies reported, this ultrastable state involved an anisotropic structure. In addition, we found that a large endotherm (sub-$T_\mathrm{g}$ endotherm) was observed in the temperature range between deposition and ordinal glass transition temperatures. We have assessed the stability of deposited states thermodynamically and found that those states are much more stable than those crystalline states when the deposition rate is small enough. The total enthalpies associated with the sub-$T_\mathrm{g}$ endotherm are roughly proportional to the powers of the inversed thickness of the deposited glass. Despite the thermodynamical evidence, wide-angle x-ray diffraction of the structure associated with the sub-$T_\mathrm{g}$ endotherm was unchanged. Following our findings, we have proposed a scenario in which ultrastable vapor-deposited phenolphthalein glass is rooted in locally superstable structure. Our locally oriented scenario would be universal for forming stable structures in other vapor-deposited glasses.
format Preprint
id arxiv_https___arxiv_org_abs_2410_13209
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Findings of sub-$T_\mathrm{g}$ endotherm in vapor-deposited ultrastable phenolphthalein glass
Tatsumi, Soichi
Nakamura, Yutaka
Miyazaki, Takashi
Kayano, Tomohiro
Kishimoto, Daiki
Fujiwara, Susumu
Yao, Haruhiko
Soft Condensed Matter
We have performed differential scanning calorimetric and synchrotron x-ray diffraction studies to elucidate the nature of vapor-deposited ultrastable phenolphthalein glass. As a result, we found that phenolphthalein forms the ultrastable glass by depositing at 313 K, which is about 0.86 times the ordinal glass transition temperature of 361 K. As previous ultrastable glass studies reported, this ultrastable state involved an anisotropic structure. In addition, we found that a large endotherm (sub-$T_\mathrm{g}$ endotherm) was observed in the temperature range between deposition and ordinal glass transition temperatures. We have assessed the stability of deposited states thermodynamically and found that those states are much more stable than those crystalline states when the deposition rate is small enough. The total enthalpies associated with the sub-$T_\mathrm{g}$ endotherm are roughly proportional to the powers of the inversed thickness of the deposited glass. Despite the thermodynamical evidence, wide-angle x-ray diffraction of the structure associated with the sub-$T_\mathrm{g}$ endotherm was unchanged. Following our findings, we have proposed a scenario in which ultrastable vapor-deposited phenolphthalein glass is rooted in locally superstable structure. Our locally oriented scenario would be universal for forming stable structures in other vapor-deposited glasses.
title Findings of sub-$T_\mathrm{g}$ endotherm in vapor-deposited ultrastable phenolphthalein glass
topic Soft Condensed Matter
url https://arxiv.org/abs/2410.13209