Sub-parts per billion detection of isoprene using a reduction gas detector with a portable gas chromatograph

Atmospheric Environment. Part A. General Topics Pub Date : 1993-11-01 DOI:10.1016/0960-1686(93)90037-Y
James P. Greenberg, Patrick R. Zimmerman, Brett E. Taylor, Gary M. Silver, Ray Fall
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引用次数: 35

Abstract

Isoprene, a biogenic hydrocarbon emitted from vegetation, has been detected at sub-ppb levels, using a commercially available reduction gas detector (RGD) with an isothermal, portable gas chromatograph. For 1 ml samples, a detection limit of 300–500 parts per trillion (over an order of magnitude less than the traditional gas chromatography-flame ionization detection technique [GC-FID]) was achieved. The detector response was linear up to 500 ppb. This technique (GC-RGD) is compared with GC-FID measurements in studies of ambient isoprene mixing ratios within and above an oak forest in northeastern U.S.A. Applications of laboratory studies of the mechanism of isoprene production at the leaf level are also discussed.

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用便携式气相色谱仪还原气体检测器检测十亿分之一的异戊二烯
异戊二烯是一种从植物中释放的生物源碳氢化合物,使用市售的还原气体检测器(RGD)和等温便携式气相色谱仪,已检测到亚ppb水平。对于1 ml样品,检测限为300-500万亿分之一(比传统的气相色谱-火焰离子化检测技术[GC-FID]低一个数量级)。在500 ppb以下,探测器的响应呈线性。本研究将气相色谱- rgd技术与气相色谱- fid技术在美国东北部栎林内外环境异戊二烯混合比的研究中进行了比较,并讨论了在叶片水平上异戊二烯产生机制的实验室研究的应用。
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Atmospheric Environment. Part A. General Topics
Atmospheric Environment. Part A. General Topics
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