2011
DOI: 10.1103/physreva.84.042705
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Wall-collision line broadening of molecular oxygen within nanoporous materials

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Cited by 23 publications
(8 citation statements)
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References 32 publications
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“…However, not until around 2010 did measurements clearly demonstrate these confinement effects [645][646][647]. These experiments showed that lines of H 2 O vapor inside an aerogel sample [645] and of O 2 gas inside ceramics [647] are significantly broader than those observed for the same pressures and species under unconfined conditions. This is also shown in [648,649] and Fig.…”
Section: Probing Confined Gasesmentioning
confidence: 77%
See 1 more Smart Citation
“…However, not until around 2010 did measurements clearly demonstrate these confinement effects [645][646][647]. These experiments showed that lines of H 2 O vapor inside an aerogel sample [645] and of O 2 gas inside ceramics [647] are significantly broader than those observed for the same pressures and species under unconfined conditions. This is also shown in [648,649] and Fig.…”
Section: Probing Confined Gasesmentioning
confidence: 77%
“…It was predicted many years ago that the (tight) confinement of molecular gases inside enclosures where they are free to move (and not adsorbed) induces a modification of the shapes of absorption lines through the increased contribution of molecule-surface collisions [643,644]. However, not until around 2010 did measurements clearly demonstrate these confinement effects [645][646][647]. These experiments showed that lines of H 2 O vapor inside an aerogel sample [645] and of O 2 gas inside ceramics [647] are significantly broader than those observed for the same pressures and species under unconfined conditions.…”
Section: Probing Confined Gasesmentioning
confidence: 99%
“…Since the free mean path of molecules in ambient air is about 60 nm, this means, that wall‐collision broadening would occur in nano‐porous materials. Such effects, potentially useful for non‐intrusive determination of pore‐size distributions, have been predicted and observed in nano‐porous ceramics .…”
Section: Basic Priniples Of Gas In Scattering Media Absorption Spectrmentioning
confidence: 98%
“…Since the emerging light is weak and nonlocalized, a large‐area detector combined with extremely sensitive detection electronics is needed to pick up the faint gas imprints [10]. This type of spectroscopy, denoted gas in scattering media absorption spectroscopy (GASMAS), has since found a lot of applications in many areas [11, 12], regarding, for example, materials [13–15], pore‐size analysis [16–18], food packages [19, 20], fruits [21, 22], pharmaceuticals [23] and medical diagnostics [5, 11].…”
Section: Introductionmentioning
confidence: 99%