Ryan T. Hilger scite author profile

We describe here a new principle for ion detection in time-of-flight (TOF) mass spectrometry in which an impinging ion packet excites mechanical vibrations in a silicon nitride (Si(3)N(4)) nanomembrane. The nanomembrane oscillations are detected by means of time-varying field emission of electrons from the mechanically oscillating nanomembrane. Ion detection is demonstrated in the MALDI-TOF analysis of proteins varying in mass from 5729 (insulin) to 150,000 (Immunoglobulin G) daltons. The detector response agrees well with the predictions of a thermomechanical model in which the impinging ion packet causes a nonuniform temperature distribution in the nanomembrane, exciting both fundamental and higher order oscillations.

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High-throughput screening of organic reactions in microdroplets using desorption electrospray ionization mass spectrometry (DESI-MS): hardware and software implementation

Sobreira

Avramova

Szilágyi

et al. 2020

Anal. Methods

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Nondestructive Tandem Mass Spectrometry Using a Linear Quadrupole Ion Trap Coupled to a Linear Electrostatic Ion Trap

2013

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A novel hybrid tandem mass spectrometer is presented that combines a linear quadrupole ion trap (QLIT) with a linear electrostatic ion trap (ELIT), which is composed of opposing ion mirrors. The QLIT is used both as an accumulation device for the pulsed injection of ions into the ELIT and as a collision cell for ions released from the ELIT and back into the QLIT. Ions are subjected to mass analysis in the ELIT via Fourier transformation of the time-domain signal obtained from an image current measurement using a pick-up electrode in the field-free region of the ELIT. The nondestructive nature of ion detection and the relatively straightforward axial entrance and exit of ions into and from the ELIT allow for the execution of nondestructive tandem mass spectrometry experiments whereby both the initial mass spectrum and the product ion spectrum are obtained on the same initial ion population. The timed pulsing of a deflection electrode, in conjunction with the release of ions from the ELIT, allows for the selection of precursor ions for recapture by the QLIT. The transfer of ions back and forth between the QLIT and ELIT is illustrated with Cs ions, the selection of precursor ions is demonstrated with isotopes of tetraoctylammonium cations, and complete nondestructive tandem mass spectrometry experiments are demonstrated with a mixture of angiotensin II and bradykinin cations. With the current apparatus, the efficiency for the process of recapturing ions and then reinjecting them into the ELIT is 35%-40%. The instrument is capable of isolating an ion from a neighbor with a mass as close as 1 part in 500, with negligible loss of the desired species.

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Ryan T. Hilger

A Mechanical Nanomembrane Detector for Time-of-Flight Mass Spectrometry

High-throughput screening of organic reactions in microdroplets using desorption electrospray ionization mass spectrometry (DESI-MS): hardware and software implementation

Nondestructive Tandem Mass Spectrometry Using a Linear Quadrupole Ion Trap Coupled to a Linear Electrostatic Ion Trap

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