利用红外活性配体提高四极离子阱中的红外多光子解离效率。

Amplification of infrared multiphoton dissociation efficiency in a quadruple ion trap using IR-active ligands.

作者信息

Pikulski Michael, Wilson Jeffrey J, Aguilar Apolonio, Brodbelt Jennifer S

机构信息

Department of Chemistry and Biochemistry, 1 University Station A5300, University of Texas at Austin, Austin, Texas 78712, USA.

出版信息

Anal Chem. 2006 Dec 15;78(24):8512-7. doi: 10.1021/ac061472k.

DOI:10.1021/ac061472k

PMID:17165847

Abstract

A strategy for increasing the efficiency of infrared multiphoton dissociation (IRMPD) in a quadrupole ion trap (QIT) is described. IR-active ligands (IRALs) are incorporated into noncovalent complexes of the type [M2+(analyte) IRAL]+, where M is a transition metal such as copper or cobalt and IRAL is an auxiliary ligand with an IR-active phosphonate functional group. The complexes are formed via self-assembly in solution directly prior to ESI-MS analysis. We demonstrate this new IRMPD approach for the structural characterization of flavonoids. The fragment ions obtained by IRMPD are similar to those obtained by CAD and allow facile isomer differentiation of flavonoids. Fourier transform infrared absorption attenuated total reflectance (FTIR-ATR) and energy-variable CAD experiments indicate that the high IRMPD efficiencies stem from the very large IR absorptivities of the IR-active ligands.

摘要

描述了一种提高四极离子阱（QIT）中红外多光子解离（IRMPD）效率的策略。将红外活性配体（IRALs）引入到[M2 +（分析物）IRAL]+类型的非共价复合物中，其中M是过渡金属，如铜或钴，IRAL是具有红外活性膦酸酯官能团的辅助配体。这些复合物在电喷雾电离质谱（ESI-MS）分析之前直接通过溶液中的自组装形成。我们展示了这种用于黄酮类化合物结构表征的新IRMPD方法。通过IRMPD获得的碎片离子与通过碰撞诱导解离（CAD）获得的碎片离子相似，并且能够轻松区分黄酮类化合物的异构体。傅里叶变换红外吸收衰减全反射（FTIR-ATR）和能量可变CAD实验表明，高IRMPD效率源于红外活性配体非常大的红外吸收率。

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利用红外活性配体提高四极离子阱中的红外多光子解离效率。

Amplification of infrared multiphoton dissociation efficiency in a quadruple ion trap using IR-active ligands.

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