2011
DOI: 10.1021/ja1091886
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Finite Size Effect of Proton-Conductivity of Amorphous Silicate Thin Films Based on Mesoscopic Fluctuation of Glass Network

Abstract: The finite size effect of proton conductivity of amorphous silicate thin films, a-M(0.1)Si(0.9)O(x) (M = Al, Ga, Hf, Ti, Ta, and La), was investigated. The proton conductivity across films, σ, was measured in dry air by changing the thickness in the range of 10-1000 nm. σ of the films with M = Al, Ga, and Ta was elevated in a power law by decreasing thickness into less than a few hundred nanometers, and the increment was saturated at a thickness of several 10's of nanometers. On the other hand, σ of the films … Show more

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Cited by 20 publications
(29 citation statements)
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“…6). This feature is very similar to the size-scaling of ionic conductivity found in the ion-conducting amorphous silicate thin films [20]. This size-scaling behavior is characteristic of amorphous nanofilms consisting of the highly-conducting pathway and poorly-conducting matrix with the concentration of the path below the percolation threshold.…”
supporting
confidence: 77%
“…6). This feature is very similar to the size-scaling of ionic conductivity found in the ion-conducting amorphous silicate thin films [20]. This size-scaling behavior is characteristic of amorphous nanofilms consisting of the highly-conducting pathway and poorly-conducting matrix with the concentration of the path below the percolation threshold.…”
supporting
confidence: 77%
“…The conductivity of H 2 O‐humidified CSO is almost 1.30 times higher than the conductivity of the D 2 O‐humidified CSO (Figure c) sample. This observation indicates the proton oriented conductivities . Figure d shows that the proton conductivity increases gradually with temperature.…”
Section: Resultsmentioning
confidence: 73%
“…H + diffusion into the subsurface is analogous to proton conduction and suggests that radiation damage may increase the proton conductivity of silica near water-silica interfaces; similar phenomenon has been observed in mesoporous silica [17][18][19][20]. This effect would provide a means to directly measure the extent of the radiolytic damage of glass surfaces by measuring changes in conductivity.…”
Section: Discussionmentioning
confidence: 74%
“…For example, abnormally high proton conduction has been observed in mesoporous silica [17][18][19][20], and evidence suggests that defects play a significant role in H + mobility in water-silica systems [21][22][23][24][25]. Given the fact that ballistic radiation creates large concentrations of defects in silica, it is not unreasonable to consider how radiation damage affects the mobility of H + at the silica surface and into the bulk glass.…”
Section: Introductionmentioning
confidence: 99%