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首页> 外文期刊>Journal of Analytical Atomic Spectrometry >Iron oxidation state in garnet from a subduction setting: a micro-XANES and electron microprobe (rn'flank method') comparative study
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Iron oxidation state in garnet from a subduction setting: a micro-XANES and electron microprobe (rn'flank method') comparative study

机译:俯冲环境下石榴石中铁的氧化态:XANES微电子探针(“侧翼法”)的比较研究

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摘要

The variation of the Fe-redox state across a strongly zoned garnet crystal occurring in a FeTi-oxide metagabbro from a subduction setting has been investigated comparing micro-XANES and electron microprobe ("flank method") results. This sample represents an ideal monitor of the redox processes associated with devolatilization reactions occurring in the subducting slab and likely involved in the oxidation of the mantle wedge, as well as a challenge for the analytical methods. Since in the studied garnet the Fe~(3+/)∑Fe variations are small and occur on a micrometric scale, we exploited the X-ray microprobe available at the ESRF ID22 beamline to reach a spot size of 1.7 μm × 5.3 μm. Our study represents a first attempt to measure the Fe~(3+)/∑Fe variations across a single crystal of garnet, ca. 400 urn in diameter, using the micro-XANES technique. The absolute Fe~(3+)/∑Fe values obtained with micro-XANES and "flank method" are perfectly comparable, ranging from a maximum of about 0.1 in the garnet core to a minimum of 0.0 in the garnet rim.
机译:比较了微型XANES和电子微探针(“侧面法”)的结果,研究了俯冲状态下FeTi氧化物代谢产物中强带状石榴石晶体中Fe-氧化还原态的变化。该样品代表了与在俯冲板中发生的脱挥发分反应相关的氧化还原过程的理想监测器,并且可能与地幔楔的氧化有关,同时也对分析方法提出了挑战。由于在研究的石榴石中Fe〜(3 + /)∑Fe变化很小且发生在微米尺度上,因此我们利用ESRF ID22光束线处可用的X射线微探针来达到1.7μm×5.3μm的光斑尺寸。我们的研究代表了首次尝试测量整个石榴石单晶中Fe〜(3 +)/ ∑Fe的变化。使用micro-XANES技术的直径为400 n。用micro-XANES和“侧面法”获得的Fe〜(3 +)/ ∑Fe绝对值是完全可比的,范围从石榴石芯中的最大值约0.1到石榴石边缘中的最小值0.0。

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  • 来源
    《Journal of Analytical Atomic Spectrometry》 |2012年第10期|p.1725-1733|共9页
  • 作者

    Elisa Borfecchia; Lorenzo Mino; Diego Gianolio; Chiara Groppo; Nadia Malaspina; Gema Martinez-Criado; Juan Angel Sans; Stefano Poli; Daniele Castelli; Carlo Lamberti;

  • 作者单位

    Dept. of Chemistry, University of Turin, via Giuria 7, 1-10125, Torino, Italy,NIS Centre of Excellence and INSTM Centro di Riferimento, via Quarello 11, 1-10135, Torino, Italy;

    Dept. of Chemistry, University of Turin, via Giuria 7, 1-10125, Torino, Italy;

    Dept. of Chemistry, University of Turin, via Giuria 7, 1-10125, Torino, Italy,NIS Centre of Excellence and INSTM Centro di Riferimento, via Quarello 11, 1-10135, Torino, Italy, Diamond Light Source Ltd., Harwell Science and Innovation Campus, Didcot OX11 ODE, United Kingdom;

    Dept. of Earth Sciences, University of Torino, via Valperga Caluso 35, I- 10125, Torino, Italy;

    Dept. of Geological Sciences and Geotechnology, Universita degli Studi di Milano-Bicocca, Piazza della Scienza 4, 1-20126, Milano, Italy;

    European Synchrotron Radiation Facility, ID22, 6, rue Jules Horowitz, B.P. 220, F-38043, Grenoble Cedex, France;

    European Synchrotron Radiation Facility, ID22, 6, rue Jules Horowitz, B.P. 220, F-38043, Grenoble Cedex, France;

    Dept. of Earth Sciences, Universita degli Studi di Milano, via Botticelli 23, 1-20133, Milano, Italy;

    Dept. of Earth Sciences, University of Torino, via Valperga Caluso 35, I- 10125, Torino, Italy;

    Dept. of Chemistry, University of Turin, via Giuria 7, 1-10125, Torino, Italy,NIS Centre of Excellence and INSTM Centro di Riferimento, via Quarello 11, 1-10135, Torino, Italy;

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