Development of a bunching ionizer for TOF mass spectrometers with reduced resources

TL;DR

This paper presents a resource-efficient bunching ionizer for TOF mass spectrometers that significantly improves sensitivity and reduces power consumption, enabling portable applications.

Contribution

A novel electrostatic ion beam trap-based bunching ionizer with lower voltage and power requirements than traditional RF traps.

Findings

Sensitivity improved by over an order of magnitude.

Device operates at ~100 V and ~0.8 W, much lower than conventional traps.

Successful integration with miniature TOF-MS demonstrated.

Abstract

In some types of mass spectrometers, such as Time of Flight mass spectrometers (TOF-MSs), it is necessary to control pulsed beams of ions. This can be easily accomplished by applying a pulsed voltage to the pusher electrode while the ionizer is continuously flowing ions. This method is preferred for its simplicity, although the ion utilization efficiency is not optimized. Here we employed another pulse-control method with a higher ion utilization rate, which is to bunch ions and kick them out instead of letting them stream. The benefit of this method is that higher sensitivity can be achieved; since the start of new ions cannot be allowed during TOF separation, it is highly advantageous to bunch ions that would otherwise be unusable. In this study, we used analytical and numerical methods to design a new bunching ionizer with reduced resources, adopting the principle of electrostatic ion beam trap. The test model experimentally demonstrated the bunching performance with respect to sample gas density and ion bunching time using gas samples and electron impact ionization. We also conducted an experiment in connection with a miniature TOF-MS, and showed that the sensitivity was improved by more than one order of magnitude using the newly developed ionizer. Since the device is capable of bunching ions with lower voltage and lower power consumption (~100 V, ~0.8 W) compared with conventional RF ion trap bunchers (several kilovolts, ~10 W), it will be possible to find applications in portable mass spectrometer with reduced resources.