以低分子量碳氢化合物为流动相的超低温高效液相色谱法

Chromatography (Basel) Pub Date : 2020-10-20 DOI:10.15583/jpchrom.2020.011

Tomohiro Motono, Takayuki Kanayama, S. Kitagawa, Yoshinori Iiguni, H. Ohtani

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引用次数: 1

摘要

在超低温高效液相色谱中，分析物的保留通常会增强，抑制洗脱。为了解决这个问题，我们研究了在单片ODS柱中使用低分子量碳氢化合物甲烷和乙烷作为流动相。使用这些流动相成功地降低了分析物的保留率，并实现了单氯甲烷和二氯甲烷以及正辛烷的洗脱，而在我们之前的工作中，使用液氮基流动相没有进行洗脱。辛烷结构异构体的分析表明，在低温HPLC中，与正辛烷的保留相比，支链辛烷的保留显著降低。e异辛烷（2,2,4-三甲基戊烷）的保留因子几乎可以忽略不计。在-176°C的HPLC中，支链辛烷的保留因子分布在正戊烷和正庚烷之间，而在50°C的气相色谱中，这些值在正庚烷和正辛烷之间。

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Ultralow-Temperature HPLC Using Low-Molecular-Weight Hydrocarbons as Mobile Phases

In ultralow-temperature HPLC, analyte retention is often enhanced, inhibiting elution. To solve this problem, we have investigated the use of low-molecular-weight hydrocarbons, methane and ethane, as the mobile phase in a monolithic ODS column. Analyte retention was successfully reduced by the use of these mobile phases, and elution of mono- and di-chloromethane and n -octane, which were not eluted in our previous work using a liquid nitrogen based mobile phase, was achieved. The analysis of octane structural isomers revealed that, in cryogenic HPLC, the retention of branched octanes was significantly reduced compared to the retention of n -octane, i . e ., the retention factor of iso -octane (2,2,4-trimethylpentane) was almost negligible. The retention factors of branched octanes were distributed between those of n -pentane and n -heptane in HPLC at -176°C, whereas, in gas chromatography at 50°C, these values were between those of n -heptane and n -octane.

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Chromatography (Basel)

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