A linear ion trap for biological agent detection and identification

Matthew Todd Griffin; Scott A. McLuckey

doi:10.1117/12.541453

13 August 2004 A linear ion trap for biological agent detection and identification

Matthew Todd Griffin, Scott A. McLuckey

Proceedings Volume 5416, Chemical and Biological Sensing V; (2004) https://doi.org/10.1117/12.541453
Event: Defense and Security, 2004, Orlando, Florida, United States

Abstract

A novel linear ion trap (LIT) system for protein bio-marker identification that provides significant improvement in sensitivity and dynamic range over current mass spectrometry approaches is being developed. The improvements arise from 1-2 orders of magnitude improvement in ion collection efficiency and 1-2 orders of magnitude improvement in ion storage capacity. These improvements will translate directly into improved sensitivity and dynamic range. The end goal is an instrument capable of identifying low femtomole levels of bio-agent protein markers present in complex mixtures. A unique aspect of the proposed instrument will be the potential for detection and identification of a priori unknowns. This approach is not restricted to searching for targeted agents and can be used to identify unanticipated threats. This effort leverages previous work with three-dimensional ion trap mass spectrometry that has recently been demonstrated to provide the capability for concentration, purification, and identification of protein biomarkers within the ion trap. This effort will take advantage of significant potential improvements in overall performance. This paper will discuss the historical work with three-dimensional ion traps and show preliminary results from the linear ion trap.

Citation Download Citation

Matthew Todd Griffin and Scott A. McLuckey "A linear ion trap for biological agent detection and identification", Proc. SPIE 5416, Chemical and Biological Sensing V, (13 August 2004); https://doi.org/10.1117/12.541453

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