Precision evaluation of nitrogen isotope ratios by Raman spectrometry

IF 3 Q2 CHEMISTRY, ANALYTICAL Analytical science advances Pub Date : 2022-10-17 DOI:10.1002/ansa.202200020

Junji Yamamoto, Yuuki Hagiwara

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引用次数: 1

Abstract

We measured Raman spectra of N₂ fluids obtained at 0.1–25 MPa at room temperature. The ¹⁴N¹⁵N peak in the Raman spectrum of a low-pressure N₂ fluid is difficult to detect because of the prevalence of a group of peaks attributed to rotational vibration of ¹⁴N₂. The Raman peaks of ¹⁴N¹⁵N and ¹⁴N₂ of N₂ fluid at 25 MPa were acquired at various exposure times. The mean values and standard deviations of the peak height ratios and peak area ones of ¹⁴N¹⁵N and ¹⁴N₂ were examined for each time. The standard deviations of the peak height ratios and peak area ones were 2.2% and 1.9%, respectively, for 20 spectra acquired with peak height of 1 million counts of ¹⁴N₂. The uncertainties are about two times higher than those predicted from the noise of a CCD. Improvement of the pixel resolution can enhance the precision of the nitrogen isotope ratios by Raman spectroscopy.

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拉曼光谱法测定氮同位素比值的精度评价

我们在室温下测量了0.1 ~ 25 MPa下获得的N2流体的拉曼光谱。低压氮气流体拉曼光谱中的14N15N峰很难检测到，因为存在一组归因于14N2旋转振动的峰。获得了N2流体在25 MPa下不同暴露时间下14N15N和14N2的拉曼峰。分别检测14N15N和14N2的峰高比和峰面积比的平均值和标准差。20个峰高为100万计数14N2的光谱，峰高比和峰面积比的标准差分别为2.2%和1.9%。这种不确定度比CCD噪声预测的不确定度高两倍。提高像元分辨率可以提高拉曼光谱测定氮同位素比的精度。

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来源期刊

Analytical science advances

CiteScore

4.60

自引率

0.00%

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