2012
DOI: 10.1016/j.jnoncrysol.2012.04.026
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Redox kinetics of iron in alkali silicate glasses exposed to ionizing beams: Examples with the electron microprobe

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Cited by 9 publications
(7 citation statements)
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“…The diffusivity of H 2 O in basaltic glasses depends on the total H 2 O content (Okumura and Nakashima 2006), thus the rate of oxidation increases with increasing H 2 O diffusivity. These results show that the migration of H + , in addition to Na + and K + as previously suggested by Fialin and Wagner (2012), leads to oxidation of Fe during electron beam irradiation. In fact, when considering the mobile cation responsible for Fe oxidation, H + plays a more important role than might be expected from its oxide wt% concentrations alone due to the low atomic mass of H.…”
Section: Rate Of Oxidationsupporting
confidence: 85%
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“…The diffusivity of H 2 O in basaltic glasses depends on the total H 2 O content (Okumura and Nakashima 2006), thus the rate of oxidation increases with increasing H 2 O diffusivity. These results show that the migration of H + , in addition to Na + and K + as previously suggested by Fialin and Wagner (2012), leads to oxidation of Fe during electron beam irradiation. In fact, when considering the mobile cation responsible for Fe oxidation, H + plays a more important role than might be expected from its oxide wt% concentrations alone due to the low atomic mass of H.…”
Section: Rate Of Oxidationsupporting
confidence: 85%
“…Finally, no change in FeLβ f /FeLα f with time implies stable Fe 2+ /Fe T during analysis. The presence of predominantly magnetite nanolites after electron beam irradiation implies that oxidation proceeds via precipitation of FeO·Fe 2 O 3 , not just Fe 2 O 3 , as has been previously suggested (Fialin and Wagner 2012).…”
Section: During Electron Beam Irradiationsupporting
confidence: 57%
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