溶解
硅酸盐
博罗
硅酸铝
残余物
矿物学
硼
材料科学
地球化学
地质学
化学
数学
物理化学
算法
有机化学
生物化学
催化作用
作者
Mélanie Taron,Stéṕhane Gin,Hüseyin Kaya,Jean‐Marc Delaye,Seong H. Kim
标识
DOI:10.1038/s41529-025-00576-9
摘要
Physical and chemical properties of passivating alteration gels formed on alumino-boro-silicate glasses of interest for nuclear waste containment are reported. Opposite effects of B and Al on the gel’s propensity to restructure and become passivating were observed. Boron, primarily forming Si‒O‒B bonds, fragments and weakens the silicate network if its concentration is higher than a critical value, leading to the formation of pores and Si‒OH terminations as it leaches out. The greater the number of the silanol groups, the more effective the recondensation (Si‒OH + Si‒OH ⇌ Si‒O‒Si + H2O) is, leading to reduction of pore connectivity; this facilitates passivation and thus lowers the glass alteration rate. Conversely, Al has a slowing effect on this reorganization dynamics. This work provides better insight into the role of elements in the glass alteration kinetics.
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