Rapid High-Sensitivity Analysis of Methane Clumped Isotopes (Δ¹³CH₃D and Δ¹²CH₂D₂) Using Mid-Infrared Laser Spectroscopy
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2025-01-21
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Journal Article
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Abstract
Mid-infrared laser absorption spectroscopy enables rapid and nondestructive analysis of methane clumped isotopes. However, current analytical methods require a sample size of 20 mL STP (0.82 mmol) of pure CH4 gas, which significantly limits its application to natural samples. To enhance the performance of spectroscopic measurement of methane clumped isotopes, we established a laser spectroscopic platform with newly selected spectral windows for clumped isotope analysis: 1076.97 cm–1 for 12CH2D2 and 1163.47 cm–1 for 13CH3D, and a custom-built gas inlet system. These spectral windows were identified through an extensive spectral survey on newly recorded high-resolution Fourier transform infrared (FTIR) spectra across the wavelength range of 870–3220 cm–1, thereby addressing gaps for 12CH2D2 in existing spectral databases. In addition, we implemented several key technological advances, which result in superior control and performance of sample injection and analysis. We demonstrate that for small samples ranging from 3 to 10 mL (0.12–0.41 mmol) of CH4 gas, a measurement precision comparable to high-resolution isotope ratio mass spectrometry for Δ12CH2D2 (∼1.5‰) can be achieved through 3 to 8 repetitive measurements using a recycle-refilling system within a few hours. Samples larger than 10 mL can be quantified in under 20 min. At the same time, for Δ13CH3D analysis a repeatability of 0.05‰, superior to mass spectrometry, was realized. These advancements in reducing sample size and shortening analysis time significantly improve the practicality of the spectroscopic technique for determining the clumped isotope signatures of natural methane samples, particularly for applications involving low CH4 concentrations or requiring consecutive analyses, which are feasible in conjunction with an automated preconcentration system.
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97 (2)
Pages / Article No.
1291 - 1299
Publisher
American Chemical Society
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09601 - Stoll, Heather / Stoll, Heather
08806 - Bernasconi, Stefano (Tit.-Prof.)
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200977 - Clumped isotopes of methane and dolomite to assess the thermal history of orogens and the origin of thermogenic methane (CLUMPME) (SNF)