氧烷
矿物氧化还原缓冲液
X射线吸收精细结构
协调数
价(化学)
硅酸盐
氧化态
光谱学
化学
吸收光谱法
分子动力学
X射线吸收光谱法
粘结长度
氧化物
分析化学(期刊)
材料科学
结晶学
物理化学
氧气
金属
离子
计算化学
晶体结构
物理
有机化学
量子力学
色谱法
作者
François Farges,Yannick Lefrère,Stéphanie Rossano,A. Berthereau,Georges Calas,Gordon E. Brown
标识
DOI:10.1016/j.jnoncrysol.2004.07.050
摘要
A series of 27 silicate glasses of various compositions containing 0.2–2 at.% iron were synthesized at various oxygen fugacity values. The glasses were examined using X-ray absorption fine structure (XANES) spectroscopy at the Fe K-edge in order to determine iron oxidation state and first-neighbor coordination number. Spectral information extracted from the pre-edge region and principal component analysis (PCA) of the XANES region, together with a spectral inversion, were used to derive the end-member spectral components for Fe(II) and Fe(III). Linear trends in the pre-edge features were observed for most compositional series of the glasses examined as a function of Fe(II)/Fe(III) content. These linear trends are believed to be due to the similarity of average coordination numbers for both Fe(II) and Fe(III) end-members in each series. This result is consistent with model simulations of the XANES region and molecular dynamics (MD) simulations for the two end-member compositions which also show that Fe(II) and Fe(III) have similar average coordination numbers. These simulations also suggest the presence of five-coordinated Fe(III) in the melt phase. Based on a bond valence analysis of these MD simulations, a simple model is proposed to help predict the speciation of iron in oxide and silicate glasses and melts.
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