开发量子级联激光吸收光谱仪，用于同时测量二氧化碳中的 13C-18O 和 18O-18O 凝聚。

IF 1.8 3区化学 Q4 BIOCHEMICAL RESEARCH METHODS

Rapid Communications in Mass Spectrometry Pub Date : 2024-06-18 DOI:10.1002/rcm.9836

Scott T. Wieman, Jason Kapit, Anna P. M. Michel, Weifu Guo

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引用次数: 0

摘要

理由：双块同位素古温度测定法通过测量碳酸盐中 13C-18O (∆638) 和 18O-18O (∆828) 对的频率来确定碳酸盐的形成温度。它可以消除同位素动力学偏差，从而实现更精确的古温度重建。然而，利用现有技术对 18O-18O 凝块进行高精度测量需要大量样本和较长的采集时间：我们开发了一种中红外同位素比激光光谱仪（IRLS），可在室温下同时测量气相二氧化碳（CO2）中的同位素比∆638和∆828。我们的 IRLS 使用从 2290.7 厘米-1 到 2291.1 厘米-1 的单激光扫描和一个 31 米路径长度的光学单元，可同时测量计算 ∆638 和 ∆828 所需的五个同位素：16O12C16O、16O13C16O、16O12C18O、16O13C18O 和 18O12C18O。此外，我们的 IRLS 还可以测量 16O12C17O，从而进行 ∆17O 分析：结果：在 ~20°C 和约 2 托的二氧化碳压力下，我们的 IRLS 系统在 20 秒内对成块同位素 16O13C18O 和 18O12C18O 的丰度分别达到了 0.128‰ 和 0.140‰，对 16O12C16O、16O13C16O 和 16O12C18O 的丰度分别达到了 0.267‰、0.245‰ 和 0.128‰。这样，25 秒内的精确度分别为 0.348‰（∆638）和 0.302‰（∆828）。模拟样品-参照物切换凸显了我们系统的潜力和进一步开发的必要性：我们展示了在二氧化碳中同时测量 ∆638 和 ∆828 的结果，精确度达到 16O12C16O 和 16O13C16O 峰，系统温度控制可进一步提高测量精度。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Development of a quantum cascade laser absorption spectrometer for simultaneous measurement of 13C–18O and 18O–18O clumping in CO2

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Development of a quantum cascade laser absorption spectrometer for simultaneous measurement of 13C–18O and 18O–18O clumping in CO2

Rationale

Dual clumped isotope paleothermometry determines carbonate formation temperatures by measuring the frequency of ¹³C–¹⁸O (∆₆₃₈) and ¹⁸O–¹⁸O (∆₈₂₈) pairs in carbonates. It resolves isotopic kinetic biases and thus enables more accurate paleotemperature reconstructions. However, high-precision measurements of ¹⁸O–¹⁸O clumping using current techniques requires large sample sizes and long acquisition times.

Methods

We developed a mid-infrared isotope ratio laser spectrometer (IRLS) for simultaneous measurement of the isotopologue ratios ∆₆₃₈ and ∆₈₂₈ in gas-phase carbon dioxide (CO₂) at room temperature. Our IRLS uses a single laser scanning from 2290.7 to 2291.1 cm⁻¹ and a 31 m pathlength optical cell, and it simultaneously measures the five isotopologues required for calculating ∆₆₃₈ and ∆₈₂₈: ¹⁶O¹²C¹⁶O, ¹⁶O¹³C¹⁶O, ¹⁶O¹²C¹⁸O, ¹⁶O¹³C¹⁸O, and ¹⁸O¹²C¹⁸O. In addition, our IRLS can measure ¹⁶O¹²C¹⁷O, enabling ∆¹⁷O analysis.

Results

At ~20°C and a CO₂ pressure of ~2 Torr, our IRLS system achieved precisions of 0.128‰ and 0.140‰ within 20 s for abundances of the clumped isotopologues ¹⁶O¹³C¹⁸O and ¹⁸O¹²C¹⁸O, respectively, and precisions of 0.267‰, 0.245‰, and 0.128‰ for ¹⁶O¹²C¹⁶O, ¹⁶O¹³C¹⁶O, and ¹⁶O¹²C¹⁸O. This yielded precisions of 0.348‰ (∆₆₃₈) and 0.302‰ (∆₈₂₈) within 25 s. Simulated sample–reference switching highlights the potential of our system and the need for further development.

Conclusions

We demonstrated simultaneous measurements of ∆₆₃₈ and ∆₈₂₈ in CO₂ to precisions of <0.35‰ within 25 s using a room-temperature, single-laser IRLS. Future developments on better resolving ¹⁶O¹²C¹⁶O and ¹⁶O¹³C¹⁶O peaks and system temperature control could further improve the measurement precision.

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来源期刊

Rapid Communications in Mass Spectrometry 化学-分析化学

CiteScore

4.10

自引率

5.00%

发文量

219

审稿时长

2.6 months

期刊介绍： Rapid Communications in Mass Spectrometry is a journal whose aim is the rapid publication of original research results and ideas on all aspects of the science of gas-phase ions; it covers all the associated scientific disciplines. There is no formal limit on paper length ("rapid" is not synonymous with "brief"), but papers should be of a length that is commensurate with the importance and complexity of the results being reported. Contributions may be theoretical or practical in nature; they may deal with methods, techniques and applications, or with the interpretation of results; they may cover any area in science that depends directly on measurements made upon gaseous ions or that is associated with such measurements.