Raman and FTIR Spectroscopy of Synthetic Amphiboles: I. The OH Librational Bands and the Determination of the OH-F Content of Richterites via Raman Spectroscopy

IF 1.1 4区地球科学 Q3 MINERALOGY

Canadian Mineralogist Pub Date : 2020-12-07 DOI:10.3749/canmin.1900090

G. Ventura, F. Hawthorne, B. Mihailova, A. Sodo

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引用次数: 2

Abstract

Unpolarized FTIR and Raman spectra were collected in the regions 4000–4600 cm–1 (NIR) and 100–4000 cm–1 from previously synthesized and characterized amphiboles in the systems richterite–fluoro-richterite, potassic-richterite–potassic-fluoro-richterite, rubidium-richterite–rubidium-fluoro-richterite, and potassic-richterite–deuterated potassic-richterite. The NIR spectra of Na-, K-, and Rb-richterites have peaks at 4325, 4210 cm–1, and 3735–3730 cm–1. All three peaks decrease in intensity with increasing F content, indicating that the higher-energy peaks are combination bands involving the principal OH-stretch at 3735–3730 cm–1 and two OH-libration modes, the frequencies of which can be calculated from the relation ωcombination ≈ ωOH + ωlibration; these are 590 and 475 cm–1, respectively. The FTIR spectra of the richterite–fluoro-richterite and potassic-richterite–potassic-fluoro-richterite series show decreasing intensity and eventual disappearance of the band at ∼600 cm–1 with increasing F in accord with the assignment of this band as due to OH-libration. Raman spectra of the potassic-richterite–deuterated potassic-richterite amphiboles in the low-energy region show the disappearance of two peaks at 585 and 473 cm–1 that we have assigned to OH-libration modes. Collectively, these spectroscopic results indicate that there are two OH-libration modes at ∼590 and ∼475 cm–1 in these synthetic richterites and, by implication, in all monoclinic OH-bearing amphiboles with filled A sites. Similarly to FTIR, the relative intensities of the stretching modes associated with OH-A-OH and OH-A-F local configurations in the Raman spectra provide a reliable estimation of the F content in these A site-filled amphiboles.

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合成两栖动物的拉曼光谱和FTIR光谱：I.羟基自由带和用拉曼光谱测定橄榄石中羟基-F含量

在4000–4600 cm–1（NIR）和100–4000 cm–1区域内，从先前合成和表征的富镁铁-氟富镁铁、富钾铁-氟钾富镁铁系统、富铷-氟富铷和富钾铁–氘化富钾铁系统中的角闪石中收集了非极化FTIR和拉曼光谱。富钠、钾和Rb的近红外光谱在4325、4210 cm–1和3735–3730 cm–1处具有峰值。这三个峰的强度都随着F含量的增加而降低，表明较高的能量峰是涉及3735–3730 cm–1的主OH拉伸和两种OH平动模式的组合带，其频率可以根据ω组合≈ωOH+ω平动的关系式计算；分别为590和475 cm-1。富橄榄岩-氟富橄榄岩和富钾橄榄岩-钾氟富橄榄石系列的FTIR光谱显示，随着F的增加，在～600 cm–1处的谱带强度降低，最终消失，这与OH平动导致的谱带分配一致。低能量区的富钾岩-氘化富钾岩角闪石的拉曼光谱显示，585和473 cm–1处的两个峰消失，我们将其归属于OH平动模式。总之，这些光谱结果表明，在这些合成的富橄榄岩中，以及在所有具有填充A位点的单斜含OH角闪石中，在～590和～475 cm-1处存在两种OH平动模式。类似于FTIR，拉曼光谱中与OH-A-OH和OH-A-F局部构型相关的拉伸模式的相对强度提供了对这些A位填充角闪石中F含量的可靠估计。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Canadian Mineralogist 地学-矿物学

CiteScore

2.20

自引率

22.20%

发文量

审稿时长

4-8 weeks

期刊介绍： Since 1962, The Canadian Mineralogist has published papers dealing with all aspects of mineralogy, crystallography, petrology, economic geology, geochemistry, and applied mineralogy.