TY - JOUR
T1 - Discontinuous Atmospheric Pressure Interface in-Trap Single Photon Ionization Ion Trap Mass Spectrometry (DAPI in-Trap SPI ITMS)
AU - Zhang, Tianhan
AU - Xie, Chengyi
AU - Wu, Yong
AU - Gao, Wenqing
AU - Wang, Chenlu
AU - Tang, Keqi
AU - Yu, Jiancheng
N1 - This work was supported by the National Natural Science Foundation of China [U20A20121], National Key Research and Development Program [2023YFC3304203], Yangtze River Delta Science and Technology Innovation Community Joint Research Project [2023CSJGG1800], the Key Research and Development Program of Zhejiang Province [2020C03064, 2024C03266 and 2024C03101], the Natural Science Foundation of Zhejiang Province [LY22F010004 and LGC22B050002] and the Ningbo Science and Technology Project [2022Z241, 2023Z132, 2023Z168 and 2023S151].
Publisher Copyright:
© 2024 Taylor & Francis Group, LLC.
PY - 2025/4/13
Y1 - 2025/4/13
N2 - A compact in-trap single photon ionization (SPI) system, termed
discontinuous atmospheric pressure interface (DAPI) ion trap mass
spectrometry (ITMS), for the rapid determination of trace volatile
organic compounds (VOCs). DAPI enables the maintenance of high analyte
pressure in the SPI source while preserving the vacuum. Utilizing vacuum
ultraviolet (VUV) lamp as the ion source, we ionize the analyte within
an enclosed miniature 3D ion trap for efficient analysis. Experimental
findings demonstrate that the system achieves a mass resolution of less
than 0.5 atomic mass units for full width at half maxima (FWHM),
providing unit resolution. For the response for benzene, the system
achieves almost instantaneous response, with rise and fall times of only
2 s, which is a significant advantage compared to the membrane inlet
(MI) approach necessary for on-site detection. Additionally, tandem mass
spectrometry (MS/MS) with unit m/z isolation window was achieved and
resolved dimethyl disulfide and phenol with similar molecular weights.
Our results demonstrate that the system provides excellent performance
and we anticipate its application in rapidly determining VOCs.
AB - A compact in-trap single photon ionization (SPI) system, termed
discontinuous atmospheric pressure interface (DAPI) ion trap mass
spectrometry (ITMS), for the rapid determination of trace volatile
organic compounds (VOCs). DAPI enables the maintenance of high analyte
pressure in the SPI source while preserving the vacuum. Utilizing vacuum
ultraviolet (VUV) lamp as the ion source, we ionize the analyte within
an enclosed miniature 3D ion trap for efficient analysis. Experimental
findings demonstrate that the system achieves a mass resolution of less
than 0.5 atomic mass units for full width at half maxima (FWHM),
providing unit resolution. For the response for benzene, the system
achieves almost instantaneous response, with rise and fall times of only
2 s, which is a significant advantage compared to the membrane inlet
(MI) approach necessary for on-site detection. Additionally, tandem mass
spectrometry (MS/MS) with unit m/z isolation window was achieved and
resolved dimethyl disulfide and phenol with similar molecular weights.
Our results demonstrate that the system provides excellent performance
and we anticipate its application in rapidly determining VOCs.
KW - Miniature mass spectrometry
KW - rapid on-site detection
KW - single photon ionization (SPI)
KW - tandem mass spectrometry (MS/MS)
KW - volatile organic compounds (VOCs)
UR - https://www.ingentaconnect.com/content/tandf/lanl/2025/00000058/00000006/art00006
UR - http://www.scopus.com/inward/record.url?scp=85192759857&partnerID=8YFLogxK
U2 - 10.1080/00032719.2024.2348086
DO - 10.1080/00032719.2024.2348086
M3 - Journal article
AN - SCOPUS:85192759857
SN - 0003-2719
VL - 58
SP - 999
EP - 1010
JO - Analytical Letters
JF - Analytical Letters
IS - 6
ER -