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Manipulation of Gaseous Ions with Acoustic Fields at Atmospheric Pressure.

Yi YouJulia L DanischewskiBrian T MolnarJens RiedelJacob T Shelley
Published in: Journal of the American Chemical Society (2024)
The ability to controllably move gaseous ions is an essential aspect of ion-based spectrometry ( e.g. , mass spectrometry and ion mobility spectrometry) as well as materials processing. At higher pressures, ion motion is largely governed by diffusion and multiple collisions with neutral gas molecules. Thus, high-pressure ion optics based on electrostatics require large fields, radio frequency drives, complicated geometries, and/or partially transmissive grids that become contaminated. Here, we demonstrate that low-power standing acoustic waves can be used to guide, block, focus, and separate beams of ions akin to electrostatic ion optics. Ions preferentially travel through the static-pressure regions ("nodes") while neutral gas does not appear to be impacted by the acoustic field structure and continues along a straight trajectory. This acoustic ion manipulation (AIM) approach has broad implications for ion manipulation techniques at high pressure, while expanding our fundamental understanding of the behavior of ions in gases.
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