TY - JOUR
T1 - Direct sub-atmospheric pressure ionization mass spectrometry
T2 - Evaporation/sublimation-driven ionization is amazing, fundamentally, and practically
AU - Trimpin, Sarah
AU - Inutan, Ellen D.
AU - Pagnotti, Vincent S.
AU - Karki, Santosh
AU - Marshall, Darrell D.
AU - Hoang, Khoa
AU - Wang, Beixi
AU - Lietz, Christopher B.
AU - Richards, Alicia L.
AU - Yenchick, Frank S.
AU - Lee, Chuping
AU - Lu, I. Chung
AU - Fenner, Madeleine
AU - Madarshahian, Sara
AU - Saylor, Sarah
AU - Chubatyi, Nicolas D.
AU - Zimmerman, Teresa
AU - Moreno-Pedraza, Abigail
AU - Wang, Tongwen
AU - Adeniji-Adele, Adetoun
AU - Meher, Anil K.
AU - Madagedara, Hasini
AU - Owczarzak, Zachary
AU - Musavi, Ahmed
AU - Hendrickson, Tamara L.
AU - Peacock, Patricia M.
AU - Tomsho, John W.
AU - Larsen, Barbara S.
AU - Prokai, Laszlo
AU - Shulaev, Vladimir
AU - Pophristic, Milan
AU - McEwen, Charles N.
N1 - Publisher Copyright:
© 2024 John Wiley & Sons Ltd.
PY - 2024/6
Y1 - 2024/6
N2 - This paper covers direct sub-atmospheric pressure ionization mass spectrometry (MS). The discovery, applications, and mechanistic aspects of novel ionization processes for use in MS that are not based on the high-energy input from voltage, laser, and/or high temperature but on sublimation/evaporation within a region linking a higher to lower pressure and modulated by heat and collisions, are discussed, including how this new reality has guided a series of discoveries, instrument developments, and commercialization. A research focus, inter alia, is on how best to understand, improve, and use these novel ionization processes, which convert volatile and nonvolatile compounds from solids (sublimation) or liquids (evaporation) into gas-phase ions for analysis by MS providing reproducible, accurate, sensitive, and prompt results. Our perception on how these unprecedented versus traditional ionization processes/methods relate to each other, how they can be made to coexist on the same mass spectrometer, and an outlook on new and expanded applications (e.g., clinical, portable, fast, safe, and autonomous) is presented, and is based on ST's Opening lecture presentation at the Nordic Mass spectrometry Conference, Geilo, Norway, January 2023. Focus will be on matrix-assisted ionization (MAI) and solvent-assisted ionization (SAI) MS covering the period from 2010 to 2023; a potential paradigm shift in the making.
AB - This paper covers direct sub-atmospheric pressure ionization mass spectrometry (MS). The discovery, applications, and mechanistic aspects of novel ionization processes for use in MS that are not based on the high-energy input from voltage, laser, and/or high temperature but on sublimation/evaporation within a region linking a higher to lower pressure and modulated by heat and collisions, are discussed, including how this new reality has guided a series of discoveries, instrument developments, and commercialization. A research focus, inter alia, is on how best to understand, improve, and use these novel ionization processes, which convert volatile and nonvolatile compounds from solids (sublimation) or liquids (evaporation) into gas-phase ions for analysis by MS providing reproducible, accurate, sensitive, and prompt results. Our perception on how these unprecedented versus traditional ionization processes/methods relate to each other, how they can be made to coexist on the same mass spectrometer, and an outlook on new and expanded applications (e.g., clinical, portable, fast, safe, and autonomous) is presented, and is based on ST's Opening lecture presentation at the Nordic Mass spectrometry Conference, Geilo, Norway, January 2023. Focus will be on matrix-assisted ionization (MAI) and solvent-assisted ionization (SAI) MS covering the period from 2010 to 2023; a potential paradigm shift in the making.
KW - direct ionization mass spectrometry
KW - fast
KW - novice user
KW - robust
KW - safety
KW - sensitive
KW - sub-atmospheric pressure ionization mass spectrometry
KW - sublimation/evaporation-driven ionization
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U2 - 10.1002/jms.5018
DO - 10.1002/jms.5018
M3 - Review article
C2 - 38736378
AN - SCOPUS:85192920396
SN - 1076-5174
VL - 59
JO - Journal of Mass Spectrometry
JF - Journal of Mass Spectrometry
IS - 6
M1 - e5018
ER -