Tritium diffusion in rutile (TiO2)

Cathcart, J. V.; Perkins, R.A.; Bates, J.B.; Manley, L. C.

doi:10.1063/1.326490

Cited by 65 publications

(42 citation statements)

References 17 publications

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“…Radioactive tritium is sometimes used as a tracer for hydrogen diffusion (e.g., Shaffer et al 1974). The tritium concentration in the run products can be determined using autoradiography (e.g., Caskey 1974) or liquid scintillation counting (e.g., Cathcart et al 1979) but requires serial sectioning (i.e., successive grinding and polishing) to obtain the diffusion profile.…”

Section: Other Methodsmentioning

confidence: 99%

“…They also noted a significant anisotropy, with rates parallel to the c-axis an order of magnitude or more greater than parallel to the a-axis over the temperature range of their experiments, and there is a factor of two lower activation energy (57 vs. 124 kJ/mol) parallel to the c-axis compared to parallel to the a-axis. Cathcart et al (1979) determined tritium diffusion rates in synthetic rutile crystals along the a-and c-directions. The samples were annealed in a tritium gas source at 254-700 °C (parallel to c experiments) and 500-910 °C (parallel to a experiments).…”

Section: Oxidesmentioning

confidence: 99%

“…The tritium concentration profiles were measured by serial sectioning and liquid-scintillation counting of the tritium β-decay emissions (Gruzin method). Cathcart et al (1979) reported two species, O 3 H − ions and 3 H 2 molecules, are involved in tritium (hydrogen) migration in rutile, with 3 H + ions associated with the O 3 H − ions diffusing four orders of magnitude faster than the 3 H 2 molecules, along the a-axis.…”

Section: Oxidesmentioning

confidence: 99%

See 2 more Smart Citations

Oxygen and Hydrogen Diffusion in Minerals

Farver

2010

Reviews in Mineralogy and Geochemistry

112

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Section: Other Methodsmentioning

confidence: 99%

Section: Oxidesmentioning

confidence: 99%

Section: Oxidesmentioning

confidence: 99%

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Oxygen and Hydrogen Diffusion in Minerals

Farver

2010

Reviews in Mineralogy and Geochemistry

112

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“…In reaction models, transport of molecular hydrogen through oxide scales via channels in the oxide structure [17] or through cracks [18] is sometimes discussed, mostly in order to explain a v~p law. Molecular H2 diffusion through cracks as the rate-determining step in a reactive metaloxygen system with fast oxide layer formation seems to be a somewhat unrealistic assumption since the bare metal surface at the end of a crack will be covered instantaneously by a new oxide skin.…”

mentioning

confidence: 99%

Effect of Oxide Layers on the Absorption Kinetics of Hydrogen by Metals at Room Temperature*

Fromm¹

1986

Zeitschrift Für Physikalische Chemie

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Hydrogen in metals / Absorption kineticsOxide layers on metal surfaces impede or prevent hydrogen absorption at temperatures below 400°C. This passivation can be caused by slow dissociation of H2 molecules on the surface, slow transfer of chemisorbed H atoms into the oxide, or by slow H permeation through the oxide layer. Experiments on the H2 absorption kinetics of film samples with known oxygen precoverage yield a direct access to reaction models if relevant results of other techniques are regarded appropriately as well as inherent thermochemical and atomistic limits. Typical examples are discussed to elucidate this approach for the investigation of complex reaction mechanisms in H2 absorption kinetics at room temperatures.Oxidschichten auf Metalloberflachen behindern oder unterdnicken die Wasserstoffaufnahme bei Temperaturen unterhalb 400°C. Diese Passivierung kann durch langsame Dissoziation von H2-Molekiilen auf der Oberflache, durch einen langsamen Durchtritt chemisorbierter H-Atome ins Oxid oder durch eine langsame Permeation der H-Atome durch die Oxidschicht verursacht werden. Experimente an Filmproben mit bekannter Sauerstoffvorbelegung ermoglichen die Uberprufung von Reaktionsmodellen, die aufgrund von Ergebnissen mit anderen Verfahren und in Abstimmung mit bekannten thermochemischen und atomistischen Daten aufgestellt worden sind. Dieses Vorgehen zur Aufkliirung komplexer Reaktionsmechanismen bei der Wasserstoffaufnahme von Metallen bei Raumtemperatur wird durch einige typische Beispiele aufgezeigt.

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“…2 Intercalation is thought to proceed through dissociative adsorption at surface defects 3,4 although there is some evidence for molecular intercalation in the near surface region. 5 As the insertion of H into rutile is fully reversible up to 10 19 /cm 3 , and is easily controlled and monitored, it provides a useful probe for the variation of optical, electronic, and thermodynamic properties with donated electron concentration. [6][7][8][9] Electrochemical insertion allows intercalation to much higher H concentrations, the exact maximum insertion concentration is not known.…”

Section: Introductionmentioning

confidence: 99%

First-principles study of H intercalation in rutileTiO2

2004

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The geometry of hydrogen intercalation sites in rutile TiO 2 has been studied using first principles calculations. A new intercalation site is predicted which is consistent with all current experimental data. The apparent contradiction between spectroscopic, diffraction and magnetic resonance data are resolved by taking into account the strong local distortions of the structure induced by localization of donated charge. In particular the predicted OH vibrational frequency is in excellent agreement with that measured. A similar local geometry is predicted in the presence of 3+ counter ions but with a preferential site occupancy which is consistent with the local symmetry implied by spectroscopic measurements of aluminium substituted titania. The local distortions of the structure are shown to result in preferential ordering of the hydrogen ions in layers over a wide range of intercalation concentrations and the consequences of this ordering for electrochemical insertion of hydrogen are discussed.

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Tritium diffusion in rutile (TiO2)

Cited by 65 publications

References 17 publications

Oxygen and Hydrogen Diffusion in Minerals

Oxygen and Hydrogen Diffusion in Minerals

Effect of Oxide Layers on the Absorption Kinetics of Hydrogen by Metals at Room Temperature*

First-principles study of H intercalation in rutileTiO2

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