Some relevant parameters affecting the glass transition of supported ultra-thin polymer films

Grohens, Yves; Hamon, Loïc; Reiter, Günter; Soldera, Armand; Holl, Y.

doi:10.1140/epje/i2001-10088-4

Cited by 183 publications

(184 citation statements)

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“…Glass transition temperature is expected to increase slightly with BaTiO 3 content. Variations between glass transition temperature (T g ) of bulk polymer and thin polymer films on a ceramic substrate or polymer nanocomposites with ceramic inclusions have already been observed and reported [20][21][22]. These variations have been attributed to interactions occurring between the polymer and the nanoinclusions or substrate.…”

Section: Resultsmentioning

confidence: 96%

Dielectric behaviour and functionality of polymer matrix – ceramic BaTiO3 composites

Patsidis¹,

Psarras

2008

Express Polym. Lett.

125

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Section: Resultsmentioning

confidence: 96%

Dielectric behaviour and functionality of polymer matrix – ceramic BaTiO3 composites

Patsidis¹,

Psarras

2008

Express Polym. Lett.

125

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“…As already stated the corresponding peak of composite systems in Figure 7a, is formed at slightly lower temperatures and appears not to vary with the filler content. In polymer matrix/ ceramic filler composites variation of glass transition temperature between pure polymer and com- posite systems have been observed and reported [20][21][22]. These variations have been attributed to interactions between polymer matrix/ceramic filler and to the wetting level of inclusions.…”

Section: Figure 1 Depicts Images From Scanning Electronmentioning

confidence: 99%

Electrical response and functionality of polymer matrix-titanium carbide composites

Raptis¹,

Patsidis²,

Psarras

2010

Express Polym. Lett.

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Abstract. The dielectric response and conductivity of polymer matrix-titanium carbide composites was examined by means of Broadband Dielectric Spectroscopy in the frequency range of 10 -1 -10 7 Hz and over the temperature range of 40-150°C, varying the filler content. Dielectric data were analyzed via the electric modulus formalism. Recorded relaxations were attributed to interfacial polarization, glass to rubber transition and local motions of polar side groups. Alternating current conductivity varies up to seven orders of magnitude with both frequency and temperature. Direct current conductivity increases with temperature, although the rate of its alteration does not remain constant in the examined temperature range. In the low temperature region (up to 60°C) increases at a higher rate, while right afterwards approaches rather constant values. Finally, in the high temperature range (above 90°C) conductivity raises again but at a lower rate. This behaviour adds functionality to the composites' performance and could be exploited in developing self-current regulators.

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“…[13][14][15][16] Relatedly, there have been various reports of increases in the glass transition temperature, T g , due to the presence of reinforcing fillers; [17][18][19][20][21][22] however, other investigators found no effect of carbon black, silica, and other particles on T g . 23,24 The effect of nanoconfinement on the polymer dynamics, seen in thin films and porous structures, [25][26][27] may have an influence for layered fillers such as clay platelets. 28,29 An obvious direct consequence of filler is that less material participates in the glass transition, suppressing the changes in the temperature coefficients of the modulus, enthalpy, volume, etc., occurring on heating through T g .…”

Section: Introductionmentioning

confidence: 99%

Effect of Silica Nanoparticles on the Local Segmental Dynamics in Poly(vinyl acetate)

et al. 2008

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The effect of nanosized silica particles on the properties of poly(vinyl acetate) (PVAc) was investigated for a range of silica concentrations encompassing the percolation threshold. The quantity of polymer adsorbed to the particles ("bound rubber") increased systematically with silica content and was roughly equal to the quantity shielded from shear stresses ("occluded rubber"). This bound and occluded polymer attained a level of ∼12% at a silica volume content of 28%; nevertheless, the glass transition properties of the PVAc, including the glass transition temperature, local segmental relaxation function and relaxation times, and the changes in thermal expansion coefficient and heat capacity at T g , were unaffected by the interfacial material. That is, there is no indication that the local segmental dynamics of the chains adjacent to silica particles differ from the motions of the bulk chains. Interestingly, the volume sensitivity of the segmental dynamics, as determined from the scaling exponent γ in the relation T g ∼ V g -γ in which V g is the specific volume at the glass transition, becomes stronger with increasing silica concentration. Moreover, this dependence of γ increases abruptly at the filler percolation threshold. The implication of this result and possible directions for new research are considered.

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Some relevant parameters affecting the glass transition of supported ultra-thin polymer films

Cited by 183 publications

References 0 publications

Dielectric behaviour and functionality of polymer matrix – ceramic BaTiO3 composites

Dielectric behaviour and functionality of polymer matrix – ceramic BaTiO3 composites

Electrical response and functionality of polymer matrix-titanium carbide composites

Effect of Silica Nanoparticles on the Local Segmental Dynamics in Poly(vinyl acetate)

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