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Autori principali: Strauß, M., Shayeghi, A., Mauser, M. F. X., Geyer, P., Kostersitz, T., Salapa, J., Dobrovolskiy, O., Daly, S., Commandeur, J., Hua, Y., Köhler, V., Mayor, M., Benserhir, J., Bruschini, C., Charbon, E., Castaneda, M., Gevers, M., Gourgues, R., Kalhor, N., Fognini, A., Arndt, M.
Natura: Preprint
Pubblicazione: 2023
Soggetti:
Accesso online:https://arxiv.org/abs/2306.14571
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author Strauß, M.
Shayeghi, A.
Mauser, M. F. X.
Geyer, P.
Kostersitz, T.
Salapa, J.
Dobrovolskiy, O.
Daly, S.
Commandeur, J.
Hua, Y.
Köhler, V.
Mayor, M.
Benserhir, J.
Bruschini, C.
Charbon, E.
Castaneda, M.
Gevers, M.
Gourgues, R.
Kalhor, N.
Fognini, A.
Arndt, M.
author_facet Strauß, M.
Shayeghi, A.
Mauser, M. F. X.
Geyer, P.
Kostersitz, T.
Salapa, J.
Dobrovolskiy, O.
Daly, S.
Commandeur, J.
Hua, Y.
Köhler, V.
Mayor, M.
Benserhir, J.
Bruschini, C.
Charbon, E.
Castaneda, M.
Gevers, M.
Gourgues, R.
Kalhor, N.
Fognini, A.
Arndt, M.
contents The analysis of proteins in the gas phase benefits from detectors that exhibit high efficiency and precise spatial resolution. Although modern secondary electron multipliers already address numerous analytical requirements, new methods are desired for macromolecules at low energy. Previous studies have proven the sensitivity of superconducting detectors to high-energy particles in time-of-flight mass spectrometry. Here we explore a new energy regime and demonstrate that superconducting nanowire detectors are exceptionally well suited for quadrupole mass spectrometry. Our detectors exhibit an outstanding quantum yield at remarkably low impact energies. Notably, at low ion energy, their sensitivity surpasses conventional ion detectors by three orders of magnitude, and they offer the possibility to discriminate molecules by their impact energy and charge. By combining these detectors into arrays, we demonstrate low-energy ion beam profilometry, while our cryogenic electronics pave the way for future developments of highly integrated detectors.
format Preprint
id arxiv_https___arxiv_org_abs_2306_14571
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Highly sensitive single-molecule detection in slow protein ion beams
Strauß, M.
Shayeghi, A.
Mauser, M. F. X.
Geyer, P.
Kostersitz, T.
Salapa, J.
Dobrovolskiy, O.
Daly, S.
Commandeur, J.
Hua, Y.
Köhler, V.
Mayor, M.
Benserhir, J.
Bruschini, C.
Charbon, E.
Castaneda, M.
Gevers, M.
Gourgues, R.
Kalhor, N.
Fognini, A.
Arndt, M.
Applied Physics
The analysis of proteins in the gas phase benefits from detectors that exhibit high efficiency and precise spatial resolution. Although modern secondary electron multipliers already address numerous analytical requirements, new methods are desired for macromolecules at low energy. Previous studies have proven the sensitivity of superconducting detectors to high-energy particles in time-of-flight mass spectrometry. Here we explore a new energy regime and demonstrate that superconducting nanowire detectors are exceptionally well suited for quadrupole mass spectrometry. Our detectors exhibit an outstanding quantum yield at remarkably low impact energies. Notably, at low ion energy, their sensitivity surpasses conventional ion detectors by three orders of magnitude, and they offer the possibility to discriminate molecules by their impact energy and charge. By combining these detectors into arrays, we demonstrate low-energy ion beam profilometry, while our cryogenic electronics pave the way for future developments of highly integrated detectors.
title Highly sensitive single-molecule detection in slow protein ion beams
topic Applied Physics
url https://arxiv.org/abs/2306.14571