High-precision measurement of 36SF5+ signal using the MAT 253 Ultra isotope-ratio mass spectrometer
ID:1326 View Protection:ATTENDEE Updated Time:2024-04-11 14:43:39 Hits:1863 Oral Presentation

Start Time:2024-05-18 13:39(Asia/Shanghai)

Duration:12min

Session:S2 主题2、地球化学 » S2-1主题2、地球化学 专题2.1、专题2.3(18日下午,4F观海厅1)

No files

Abstract
Rationale: The Δ36S standard deviation (SD) measured in a conventional isotope-ratio mass spectrometer (IRMS) such as MAT 253 is at c.a. 0.1‰ to 0.3‰. At this precision, it is difficult to resolve the origin of non-mass-dependent sulfur (NMD-S) isotope fractionation in the tropospheric sulfate aerosol and in Martian meteorites or small deviations from the canonical mass-dependent fractionation laws. Interfering ions (originated from fluorination and/or mass spectrometer ion source itself) with m/z at 131 of 36SF5+ by the community as the cause of the poor precision, but the exact ion species has not been identified or confirmed.
Methods: Here we examined the potential interfering ions by using the Thermo Scientific MAT 253 Ultra, a high-resolution (mass resolving powers up to 40,000) stable isotope-ratio mass spectrometer, to measure the SF6 working gas and SF6 gases converted from IAEA-S1 Ag2S reference materials via a fluorination system.
Results: We found that there is a resolvable peak to the right of the 36SF5+ peak for both the SF6 working gas and SF6 generated by the fluorination system. The peak is identified as the 12C3F5+ ion, generated inside the instrument during the ionization process. By minimizing the presence of carbon-bearing compounds (e.g., organic matter in sample or helium gas, glue or o-ring in sample tubes, or carbon-bearing gases inside the mass spectrometer), we were able to achieve a Δ36S SD of 0.046‰ (n=8) for SF6 zero-enrichment and 0.069‰ (n=8) for overall measurement start from sliver sulfide IAEA-S1.
Conclusions: Minimizing the presence of carbon-bearing compounds and avoiding the interfering signals from 36SF5+ via MAT 253 Ultra high‐resolution isotope-ratio mass spectrometer, we can improve Δ36S measurement precision by 2 to 5 folds, which helps to open new territories for research using quadruple sulfur isotope composition.
 
 
Keywords
non-mass-dependent sulfur (NMD-S) isotope fractionation,interfering ions,Δ36S measurement precision
Speaker
孙翔
博士研究生 南京大学

Submission Author
孙翔 南京大学
仝凤台 南京大学
彭永波 南京大学 地球科学与工程学院;南京大学 国际同位素效应研究中心
鲍惠铭 南京大学
Submit Comment
Verify Code Change Another
All Comments
Important Date
  • Conference Date

    May 17

    2024

    to

    May 20

    2024

  • Mar 31 2024

    Draft paper submission deadline

  • Mar 31 2024

    Contribution Submission Deadline

  • May 20 2024

    Registration deadline

Sponsored By
青年地学论坛理事会
Organized By
厦门大学近海海洋环境科学国家重点实验室
中国科学院城市环境研究所
自然资源部第三海洋研究所
Contact Information
Previous Conferences