Size effects and extraordinary stability of ultrathin vapor deposited glassy films of toluene

E. Leon-Gutierrez; G. Garcia; A. F. Lopeandia; M. T. Clavaguera-Mora; J. Rodríguez-Viejo

doi:10.1021/jz900178u

Size effects and extraordinary stability of ultrathin vapor deposited glassy films of toluene

E. Leon-Gutierrez, G. Garcia, A. F. Lopeandia, M. T. Clavaguera-Mora, J. Rodríguez-Viejo

Departament de Física

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We report the first experimental evidence of size effects in the glass transition of thin films of an organic molecule grown from the vapor phase. In as-deposited films grown at 90 K (0.80T_g), both the fictive temperature, T_f, and the onset of the glass transition, T_on, decrease with thickness. The thinnest layers (~4 nm) exhibit the highest thermodynamic and lowest kinetic stability. Films refrozen at 2000 K/s after being heated to the liquid state during a previous scan demonstrate no size effects. The width of the glass transition for both as-deposited and refrozen films is independent of the film thickness down to 4 nm. Our heat capacity data suggest that ultrathin vapor-deposited glasses transform into liquid by a faster dynamic influenced by the outer film surface.

Idioma original	Anglès
Pàgines (de-a)	341-345
Nombre de pàgines	5
Revista	Journal of Physical Chemistry Letters
Volum	1
Número	1
DOIs	https://doi.org/10.1021/jz900178u https://doi.org/10.1021/jz900178u
Estat de la publicació	Publicada - 1 de gen. 2010

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abstract = "We report the first experimental evidence of size effects in the glass transition of thin films of an organic molecule grown from the vapor phase. In as-deposited films grown at 90 K (0.80Tg), both the fictive temperature, Tf, and the onset of the glass transition, Ton, decrease with thickness. The thinnest layers (~4 nm) exhibit the highest thermodynamic and lowest kinetic stability. Films refrozen at 2000 K/s after being heated to the liquid state during a previous scan demonstrate no size effects. The width of the glass transition for both as-deposited and refrozen films is independent of the film thickness down to 4 nm. Our heat capacity data suggest that ultrathin vapor-deposited glasses transform into liquid by a faster dynamic influenced by the outer film surface.",

keywords = "Nanoparticles and nanostructures",

author = "E. Leon-Gutierrez and G. Garcia and Lopeandia, {A. F.} and Clavaguera-Mora, {M. T.} and J. Rodr{\'i}guez-Viejo",

year = "2010",

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T1 - Size effects and extraordinary stability of ultrathin vapor deposited glassy films of toluene

AU - Leon-Gutierrez, E.

AU - Garcia, G.

AU - Lopeandia, A. F.

AU - Clavaguera-Mora, M. T.

AU - Rodríguez-Viejo, J.

PY - 2010/1/1

Y1 - 2010/1/1

N2 - We report the first experimental evidence of size effects in the glass transition of thin films of an organic molecule grown from the vapor phase. In as-deposited films grown at 90 K (0.80Tg), both the fictive temperature, Tf, and the onset of the glass transition, Ton, decrease with thickness. The thinnest layers (~4 nm) exhibit the highest thermodynamic and lowest kinetic stability. Films refrozen at 2000 K/s after being heated to the liquid state during a previous scan demonstrate no size effects. The width of the glass transition for both as-deposited and refrozen films is independent of the film thickness down to 4 nm. Our heat capacity data suggest that ultrathin vapor-deposited glasses transform into liquid by a faster dynamic influenced by the outer film surface.

AB - We report the first experimental evidence of size effects in the glass transition of thin films of an organic molecule grown from the vapor phase. In as-deposited films grown at 90 K (0.80Tg), both the fictive temperature, Tf, and the onset of the glass transition, Ton, decrease with thickness. The thinnest layers (~4 nm) exhibit the highest thermodynamic and lowest kinetic stability. Films refrozen at 2000 K/s after being heated to the liquid state during a previous scan demonstrate no size effects. The width of the glass transition for both as-deposited and refrozen films is independent of the film thickness down to 4 nm. Our heat capacity data suggest that ultrathin vapor-deposited glasses transform into liquid by a faster dynamic influenced by the outer film surface.

KW - Nanoparticles and nanostructures

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U2 - 10.1021/jz900178u

DO - 10.1021/jz900178u

M3 - Article

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JO - Journal of Physical Chemistry Letters

JF - Journal of Physical Chemistry Letters

IS - 1

ER -

Size effects and extraordinary stability of ultrathin vapor deposited glassy films of toluene

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