Adduct formation of steroids in APCI and its relation to structure identification

Analusis Pub Date : 2000-12-01 DOI:10.1051/ANALUSIS:2000280921

M. Honing, E. V. Bockxmeer, D. Beekman

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引用次数: 5

Abstract

adducts could well be explained with the dissociation energies (DE) of the complexes [14]. The DE is related to the proton affinity (PA) of the constituent base by DE = a-b ΔPA where a and b are constants and ΔPA is the absolute PA difference [10]. Therefore it can be argued that the DE hypothesis used for the thermospray data can also be used for the explanation of the adduct formation in APCI. As the PA, and consequently the DE, of a molecule is dependent on its structure, the tendency of a molecule to form adduct ions can be used for structural identification purposes. A major problem with this theory is the presence of the collisionally induced dissociation processes occurring in the sampling region of the atmospheric pressure source (somewhat like the effect of the repeller in the thermospray interface) which are, ironically enough, meant to de-cluster the adduct ions. The following, limited study, discusses the data from the acetate adduct ions with steroid molecules (see Fig. 1 for a general structure and the numbering of the C atoms) in the negative ion mode. Abundant adduct ions for these type of molecules have been reported both with the thermospray [7] as with the HN [8,9] interface. These types of compounds are chosen because the MSMS data are considered hard to interpret [15]. That is hydrogen transfer

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APCI中甾体加合物的形成及其与结构鉴定的关系

加合物可以很好地用配合物的解离能(DE)来解释[14]。DE与组成碱的质子亲和度(PA)的关系为DE = a-b ΔPA，其中a和b为常数，ΔPA为绝对PA差[10]。因此，可以认为用于热喷涂数据的DE假设也可以用于解释APCI中加合物的形成。由于分子的PA和DE取决于其结构，因此分子形成加合物离子的倾向可用于结构识别目的。该理论的一个主要问题是，在大气压力源的采样区域存在碰撞诱导的解离过程(有点像热喷涂界面中的驱避器的作用)，具有讽刺意味的是，这意味着加合离子的聚类。下面，有限的研究，讨论了在负离子模式下醋酸酯加合离子与类固醇分子(见图1的一般结构和C原子的编号)的数据。据报道，在热喷涂[7]和HN[8,9]界面中，这些类型的分子都含有丰富的加合离子。之所以选择这些类型的化合物，是因为人们认为MSMS数据难以解释[15]。这就是氢转移

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Analusis

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