2020
DOI: 10.1111/maps.13467
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Evaluation of terrestrial carbonaceous matter aromatization by Raman spectroscopy and its application to C chondrites

Abstract: A Raman method to estimate the aromatization degree of carbonaceous matter (CM) was established, and calibrated by literature data respecting differences in acquisition procedures. The generated equations allowed a comparison of the G-band width to vitrinite reflectance, and to additional structural organization parameter extracted from X-ray powder diffraction. The relations between aromatization degree and peak temperatures from literature were then propagated to G-band width parameter. The applicability of … Show more

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Cited by 5 publications
(16 citation statements)
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References 108 publications
(312 reference statements)
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“…Multiple studies of some mineral-water reactions and organic maturation phenomena in a variety of chondrite classes have quantitatively estimated "short" durations of some heating-cooling episodes and specific associated chemical reactions. Insoluble macromolecular organic matter in some chondrites regarded as more strongly metamorphosed than the usual meteorites of the same group (including CM-like, CR) exhibits spectroscopic signatures consistent with those produced by experimental heating episodes of seconds or minutes to weeks durations (Yabuta et al 2010;Briani et al 2013;Schmidt and Hinrichs 2020). Several studies of secondary mineral production by aqueous alteration in both ordinary and carbonaceous chondrites have quantitatively estimated reaction durations to be in the range of approximately 10 0 -10 1 yr (Dyl et al 2012;Velbel et al 2012).…”
Section: Heterogeneity Of Heating Effects At Thin Section Scalementioning
confidence: 79%
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“…Multiple studies of some mineral-water reactions and organic maturation phenomena in a variety of chondrite classes have quantitatively estimated "short" durations of some heating-cooling episodes and specific associated chemical reactions. Insoluble macromolecular organic matter in some chondrites regarded as more strongly metamorphosed than the usual meteorites of the same group (including CM-like, CR) exhibits spectroscopic signatures consistent with those produced by experimental heating episodes of seconds or minutes to weeks durations (Yabuta et al 2010;Briani et al 2013;Schmidt and Hinrichs 2020). Several studies of secondary mineral production by aqueous alteration in both ordinary and carbonaceous chondrites have quantitatively estimated reaction durations to be in the range of approximately 10 0 -10 1 yr (Dyl et al 2012;Velbel et al 2012).…”
Section: Heterogeneity Of Heating Effects At Thin Section Scalementioning
confidence: 79%
“…For example, for Y-86720 (metamorphism stage IV of Nakamura [2005], >750°C), Raman spectroscopy yielded estimates of <230°C (Busemann et al 2007), 70°C using an equation for long-duration geological maturation of OM and 245°C using an equation for rapid carbonization of OM (Schmidt and Hinrichs 2020), 496 AE 55°C using an equation for longduration geological maturation of OM (Kiryu et al 2020), and carbon-XANES measurements yielded 265 AE 42°C (Cody et al 2008). Similarly, for WIS 91600 (metamorphism stage II of Nakamura [2005], 300-500°C), Raman spectroscopy yielded estimates of 362.2 AE 49.8°C for matrix IOM (Chan et al 2017), 67°C using an equation for long-duration geological maturation of OM, and 277°C using an equation for rapid carbonization of OM (Schmidt and Hinrichs 2020). Such differences are attributed to differences between the kinetics of IOM and mineral responses to the temperatures and durations of heating events, with mineral-textural indicators responding much more rapidly to short, rapid heating events such as impacts (e.g., Cody et al [2008]; Quirico et al [2014] and references therein; Schmidt and Hinrichs 2020).…”
Section: Matrix Analytical Totals By Electron Probe Microanalysis (Matrix Epmaς) Vary With Temperaturementioning
confidence: 97%
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