Insights into the mechanisms controlling the residual corrosion rate of borosilicate glasses

Gin, Stéṕhane; Guo, Xiaolei; Delaye, Jean‐Marc; Angeli, Frédéric; Damodaran, K. T.; Testud, Véronique; Du, Jincheng; Kerisit, Sebastien N.; Kim, Seong H.

doi:10.1038/s41529-020-00145-2

Cited by 37 publications

(47 citation statements)

References 61 publications

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“…In the same context, a combination of DFT and NEB calculations indicate that the barrier energy for hydrolysis of B–O–B and B–O–Si bridges is much less than for Si–O–Si hydrolysis under acidic and neutral conditions, but this behavior is less pronounced under basic conditions . From experimental evidence, it was shown that under basic conditions and in dissolved silica, the hydrolysis of the B–O–Si bridges is rate limiting and has a slightly lower activation energy than for Si–O–Si hydrolysis . This may suggest that under acidic and neutral conditions, the dissolution of boron is faster than silicon (the release of boron will be much faster compared to silicon at low pH than at high pH).…”

Section: Resultsmentioning

confidence: 99%

“…34 From experimental evidence, it was shown that under basic conditions and in dissolved silica, the hydrolysis of the B− O−Si bridges is rate limiting and has a slightly lower activation energy than for Si−O−Si hydrolysis. 89 This may suggest that under acidic and neutral conditions, the dissolution of boron is faster than silicon (the release of boron will be much faster compared to silicon at low pH than at high pH). However, as the previous studies did not take into account, on the one hand, two different kinds of boron units, namely, B III and B IV (see Table S2), and, on the other hand, the difference between the boron atoms of the same unit, understanding the boron release mechanism cannot be so simple (see Table 2).…”

Section: ■ Computational Detailsmentioning

confidence: 99%

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Atomic Insights into the Events Governing the Borosilicate Glass–Water Interface

et al. 2021

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An atomistic understanding of the mechanisms that govern the borosilicate glass−water interface is highly needed to obtain initial assessments of the phenomena occurring during the degradation of nuclear waste forms. To this end, we have simulated a structural model of sodium borosilicate glass using classical molecular dynamics (CMD) simulations followed by a Car−Parrinello ab initio molecular dynamics (AIMD) simulation and periodic density functional theory (DFT) calculations to study both the reactivity and water adsorption events on a sodium borosilicate glass. The obtained results revealed that: (i) Na + ions are directly involved in the first stages of the dissolution mechanism, namely, the penetration of water and the release of the most accessible sodium from the surface of the glass to the aqueous solution, (ii) due to the presence of a higher amount of sodium ions closer to B IV than B III units, the boron atom with the B III unit is more accessible to accommodate water molecules than the one with the B IV unit, and (iii) the attack of B III by a water molecule occurs by a phenomenon of nondissociative adsorption followed by dissociative adsorption where the adsorbed water dissociates by the presence of another nearby water molecule. An analysis of the electronic structure, based on maximally localized Wannier functions, shows that the nondissociative adsorption presents a noncovalent bond between one of the lone pairs of the water molecule and B III (B−OH 2 ) by an interatomic distance of 1.57 Å, whereas the dissociative adsorption of this water molecule showed a B−OH covalent bond by an interatomic distance of 1.49 Å. Water molecules are collectively adsorbed on a B adsorption site, which ultimately leads to terminal B−OH and silanol H−NBO formations. As B−OH is formed, the boron site begins to attract more water molecules, which can be considered an early stage of solvation of the glass around this site. By combining DFT approaches and Bader charge analysis, our calculation reports that the adsorption of a single water molecule onto a sodium-rich site exhibits higher total interaction energy than onto a pure boron atomic site. On the other hand, DFT revealed that the water molecule adsorbed on the sodium-rich site exhibits a higher elongation of the H−O W bond length of about 0.05 Å, indicating the high probability of water dissociation and favoring the formation of H−NBO precipitates.

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Section: Resultsmentioning

confidence: 99%

Section: ■ Computational Detailsmentioning

confidence: 99%

Atomic Insights into the Events Governing the Borosilicate Glass–Water Interface

et al. 2021

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“…Whether such a mechanism also applies in the basic pH range remains an open question. Whereas the formation of ASSLs in the basic pH range has been well documented for the weathering of borosilicate glasses (e.g., Gin et al, 2017Gin et al, , 2020, very few studies have investigated the chemical composition at the nm-scale of the near-surface region of dissolved olivine and pyroxenes in the basic pH range. Worthy of note, the spectroscopic characterizations of the surface composition of altered olivine performed by (Pokrovsky & Schott, 2000) suggested that ∼2 nm-thick ASSLs could be evidenced up to a pH of ∼9.…”

Section: Reactivity Of Olivine and Enstatite Controlled By Amorphous ...mentioning

confidence: 99%

Theoretical Considerations on the Characteristic Timescales of Hydrogen Generation by Serpentinization Reactions on Enceladus

et al. 2022

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Many planetary bodies in the outer solar system are now considered to be ocean worlds, that is, they harbor global layers of liquid water beneath the ice crust (see for instance the synthesis by [Nimmo & Pappalardo, 2016]; also [Hendrix et al., 2019]). In most cases, inner oceans are believed to be in direct contact with rocky cores: only in the case of the largest moons Ganymede, Titan and Callisto, can a deep mantle composed of high-pressure ice polymorphs be present (e.g., [Hussmann et al., 2015]). While chemical reactions between rocks and liquid water

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“…The CJ4 composition was chosen for fabrication as the International Simple Glass (ISG) by the international nuclear waste glass community to study glass properties and durability behavior. 1,[55][56][57][58][59][60][61][62][63][64][65] A new series covering an extended Al compositional space based on the composition of ISG would provide valuable information regarding the effect of Al on long-term durability applicable to nuclear waste glasses.…”

Section: Decomposition Of Raman Spect On Glass Composition From Td Modelmentioning

confidence: 99%

Effects of Al:Si and (Al+Na):Si ratios on the static corrosion of sodium‐boroaluminosilicate glasses

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Parruzot

Gin

et al. 2021

Int J of Appl Glass Sci

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Understanding alteration mechanisms of borosilicate glasses in aqueous media is essential to nuclear waste performance assessments to ensure radioisotopes are contained for extended durations. Aluminum is typically added to glass compositions to reduce the extent of alteration. However, previous work on 7-day durability tests has suggested that Al has a nonlinear relationship with extent of alteration. The effects of Al:Si and (Al+Na):Si substitutions on glass durability were evaluated using series of glasses based on the International Simple Glass corroded in static conditions up to 13 months in deionized water at 90°C. The alteration behavior was determined by measurement of element release in solution. The ~7-day alteration trends across the series were consistent with predicted trends. The 13-month results indicated overall alteration decreased as Al:Si ratios increased and was unaffected by changes in (Al+Na):Si except for the glass with the highest (Al+Na):Si ratio (ISG-A23N), which completely altered within 14 days. Frequent sampling and in situ Raman measurements of solutions revealed ISG-A23N experienced several distinguishable alteration rate regimes within 7 days, forming a ~100 µm alteration layer and a NaSiAlO 4 zeolite.

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Insights into the mechanisms controlling the residual corrosion rate of borosilicate glasses

Cited by 37 publications

References 61 publications

Atomic Insights into the Events Governing the Borosilicate Glass–Water Interface

Atomic Insights into the Events Governing the Borosilicate Glass–Water Interface

Theoretical Considerations on the Characteristic Timescales of Hydrogen Generation by Serpentinization Reactions on Enceladus

Effects of Al:Si and (Al+Na):Si ratios on the static corrosion of sodium‐boroaluminosilicate glasses

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