Breath-Resolved Monitoring of Metabolic Trace Gases with Photothermal Spectroscopy

Oceans Pub Date : 2023-06-26 DOI:10.1109/cleo/europe-eqec57999.2023.10231906
S. Wolf, C. Lindner, Tobias Trendle, J. Kießling, Jürgen Wöllenstein, F. Kühnemann
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引用次数: 0

Abstract

Breath analysis has long been a particular target of interest in the development of laser spectroscopic methods. The possibility of non-invasive sampling of biomarkers and physiological parameters for diagnostics is an attractive goal, and its sensitivity, specificity and fast response make laser spectroscopy a suitable technique to this end. This holds especially for the detection of light-molecule components with high physiological significance such as nitrous oxide (N20)[I] or ammonia (NH3)[2]. Thanks to their particular high sensitivity without the need for bulky long-path cells, photothermal methods are a frequent choice for breath gas analysis [3]–[5].
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代谢微量气体的呼吸分辨光热光谱监测
长期以来,呼吸分析一直是激光光谱方法发展中一个特别感兴趣的目标。无创采样生物标志物和生理参数诊断的可能性是一个有吸引力的目标,其灵敏度、特异性和快速响应使激光光谱学成为实现这一目标的合适技术。这尤其适用于检测具有高生理意义的轻分子成分,如氧化亚氮(N20)[I]或氨(NH3)[2]。由于其特殊的高灵敏度而不需要笨重的长路径电池,光热方法是呼吸气体分析的常用选择[3]-[5]。
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Oceans
Oceans
CiteScore
3.10
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