一种为傅里叶变换离子回旋共振质谱设计的八阶电补偿阱。
An electrically compensated trap designed to eighth order for FT-ICR mass spectrometry.
作者信息
Brustkern Adam M, Rempel Don L, Gross Michael L
机构信息
Department of Chemistry, Washington University, St. Louis, Missouri 63130, USA.
出版信息
J Am Soc Mass Spectrom. 2008 Sep;19(9):1281-5. doi: 10.1016/j.jasms.2008.05.016. Epub 2008 Jul 2.
Abstract
We present the design, guided by theory to eighth order, and the first evaluation of a Fourier transform ion cyclotron resonance (FT-ICR) compensated trap. The purpose of the new trap is to reduce effects of the nonlinear components of the trapping electric field; those nonliner components introduce variations in the cyclotron frequency of an ion depending on its spatial position (its cyclotron and trapping mode amplitudes). This frequency spread leads to decreased mass resolving power and signal-to-noise. The reduction of the spread of cyclotron frequencies, as explicitly modeled in theory, serves as the basis for our design. The compensated trap shows improved signal-to-noise and at least a threefold increase in mass resolving power compared to the uncompensated trap at the same trapping voltage. Resolving powers (FWHH) as high as 1.7 x 10(7) for the M + H of vasopressin at m/z 1084.5 in a 7.0-tesla induction can be obtained when using trap compensation.
摘要
我们展示了基于理论设计至八阶的傅里叶变换离子回旋共振(FT - ICR)补偿阱及其首次评估。这种新型阱的目的是减少俘获电场非线性成分的影响;这些非线性成分会使离子的回旋频率随其空间位置(其回旋和俘获模式振幅)而变化。这种频率展宽会导致质量分辨能力和信噪比降低。理论上明确建模的回旋频率展宽的减小是我们设计的基础。与在相同俘获电压下的未补偿阱相比,补偿阱的信噪比得到改善,质量分辨能力至少提高了三倍。在7.0特斯拉磁场中,使用阱补偿时,血管加压素的M + H在m/z 1084.5处的分辨能力(半高宽)高达1.7×10(7) 。
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