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Novel focusing quadrupole ion funnel improves detection sensitivity of mass spectrometers

20 October 2022 | News
by Ian Michael
Diagram of the focusing effect of the FQ-IF drift tube

Researchers from the Hefei Institutes of Physical Science (HFIPS) of the Chinese Academy of Sciences (CAS) have proposed a novel focusing quadrupole ion funnel (FQ-IF) that takes advantage of radio frequency ion focusing technology in proton transfer reaction mass spectrometry (PTR-MS) and greatly improves its sensitivity and endowed it with a better “sense of smell”.

PTR-MS is an important analysis technique for the real-time detection of volatile organic compounds (VOCs). Detection sensitivity is a critical performance in PTR-MS. The successful determination of trace VOCs lies on the sensitivity of the instrument, so sensitivity enhancement is an active area of research.

“The FQ-IF drift tube we developed could improve ion transmission efficiency”, said BAO Xun, “and it offers a suitable collision condition”.

The tube consists of 20 layers of stainless-steel electrodes, each with four quarter rings. The first six layers have a constant bore diameter of 22 mm. The later 14 layers taper the inner diameter to 8 mm. The ion transmission efficiency in the drift tube is improved by the radio frequency electric field, which is the key to increase the sensitivity and provides more possibilities for PTR-MS.

The sensitivity of the FQ-IF range now is 13.8–87.9× higher compared to the conventional direct current drift tube, and 1.7–4.8× higher compared to the ion funnel drift tube. The improvements in the limit of detection for the FQ-IF ranged from 2.7× to 35.7× compared to the conventional direct current drift tube. In addition, the FQ-IF drift tube can be easily coupled to other types of mass spectrometers to increase the detection sensitivity and may offer considerable benefits.

Read the original journal paper in Analytical Chemistry

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