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Pressure dependence of micro‐Raman mass spectrometry for carbon isotopic composition of carbon dioxide fluid
Author(s) -
Yokokura Lena,
Hagiwara Yuuki,
Yamamoto Junji
Publication year - 2020
Publication title -
journal of raman spectroscopy
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.748
H-Index - 110
eISSN - 1097-4555
pISSN - 0377-0486
DOI - 10.1002/jrs.5864
Subject(s) - raman spectroscopy , analytical chemistry (journal) , intensity (physics) , carbon dioxide , chemistry , emission intensity , optics , ion , chromatography , physics , organic chemistry
Micro‐Raman spectroscopy can find the carbon isotopic ratio of CO 2 fluid from the ratio of intensity or area of a 13 CO 2 peak to that of a 12 CO 2 peak. We examined the precisions of carbon isotopic ratios (δ 13 C) of CO 2 at constant room temperature and pressure of 10–150 MPa. Measurement of the intensity ratio has precision of 2.8–8.7‰, which is better than that of the area ratio of 4.5–14.7‰. We also investigated the pressure dependence of the Raman intensity ratios and area ratio by changing fluid pressure. When changing fluid pressure from 10 to 150 MPa, the ratios of intensity and area both show negative correlation with fluid pressure (CO 2 density). Pressures of two types affect the Raman spectrum of CO 2 peaks, affecting the peak position and peak shape. To evaluate effects on the peak position, we repeatedly measured the intensity ratio at constant CO 2 pressure (10 MPa) with movement of the grating center position, which is defined as the center value of the analyzed wave number range. Although we moved the grating center position from 1,248.5 to 1,251.5 cm −1 , no significant correlation was observed for either ratio of intensity or area. The pressure effect on the ratios can be corrected by ascertaining the CO 2 pressure. Combination with the Raman spectroscopic barometry for CO 2 enables analyses of δ 13 C of CO 2 respectively using the intensity ratio and the area ratio of CO 2 Raman peaks within 8.7 and 14.7‰.