A MEMS radio-frequency ion mobility spectrometer for chemical vapor detection

A first-of-a-kind micro-electro-mechanical systems (MEMS) radio-frequency i on mobility spectrometer (rf-LMS) with a miniature drift tube of total volu me 0.6 cm(3) has been fabricated and tested. The spectrometer has detection limits in the parts per billion (ppb) and the ability to identify chemical s such as isomers of xylene not resolved in conventional time-of-flight ion mobility spectrometry. Spectrometer operation with a miniature 10.6 eV (la mbda = 116.5 nm) UV photodischarge lamp and a 1 mu Ci radioactive ionizatio n source has been demonstrated. The resultant spectra with both these ioniz ation sources are similar, with several additional peaks evident for the ra dioactive source. The effect of varying the carrier gas flow rate on the re sultant spectra has been investigated and optimal flow conditions are found at flow rates between 2 and 3 l/min. The rf-LMS has been interfaced to a m ass spectrometer (MS) and rf-IMS spectral peaks have been confirmed. The rf -IMS/MS configuration illustrates another use for the rf-IMS as a pre-filte r for atmospheric pressure chemical ionization (APCI) mass spectrometry app lications. (C) 2001 Elsevier Science B.V. All rights reserved.