Hybrid quadrupole mass filter/quadrupole ion trap/time-of-flight-mass spectrometer for infrared multiple photon dissociation spectroscopy of mass-selected ions

We present a laboratory-constructed mass spectrometer optimized for recording infrared multiple photon dissociation (IRMPD) spectra of mass-selected ions using a benchtop tunable infrared optical parametric oscillator/amplifier (OPO/A). The instrument is equipped with two ionization sources, an elec...

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Bibliographic Details
Published in:Review of scientific instruments 2011-05, Vol.82 (5), p.054101-054101-7
Main Authors: Gulyuz, Kerim, Stedwell, Corey N., Wang, Da, Polfer, Nick C.
Format: Article
Language:English
Subjects:
COVALENCE
DISSOCIATION
DRIFT TUBES
EFFICIENCY
ELECTRONS
HELIUM
INFRARED SPECTRA
INSTRUMENTATION RELATED TO NUCLEAR SCIENCE AND TECHNOLOGY
IONIZATION
IONS
IRRADIATION
PARAMETRIC AMPLIFIERS
PARAMETRIC OSCILLATORS
PHOTOLYSIS
PHOTONS
PULSES
TIME-OF-FLIGHT MASS SPECTROMETERS
TIME-OF-FLIGHT METHOD
TRAPPING
TRYPTOPHAN
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Summary:We present a laboratory-constructed mass spectrometer optimized for recording infrared multiple photon dissociation (IRMPD) spectra of mass-selected ions using a benchtop tunable infrared optical parametric oscillator/amplifier (OPO/A). The instrument is equipped with two ionization sources, an electrospray ionization source, as well as an electron ionization source for troubleshooting. This hybrid mass spectrometer is composed of a quadrupole mass filter for mass selection, a reduced pressure (∼10 −5 Torr) quadrupole ion trap (QIT) for OPO irradiation, and a reflectron time-of-flight drift tube for detecting the remaining precursor and photofragment ions. A helium gas pulse is introduced into the QIT to temporarily increase the pressure and hence enhance the trapping efficiency of axially injected ions. After a brief pump-down delay, the compact ion cloud is subjected to the focused output from the continuous wave OPO. In a recent study, we implemented this setup in the study of protonated tryptophan, TrpH + , as well as collision-induced dissociation products of this protonated amino acid [ W. K. Mino, Jr., K. Gulyuz, D. Wang, C. N. Stedwell, and N. C. Polfer , J. Phys. Chem. Lett. 2 , 299 ( 2011 )] . Here, we give a more detailed account on the figures of merit of such IRMPD experiments. The appreciable photodissociation yields in these measurements demonstrate that IRMPD spectroscopy of covalently bound ions can be routinely carried out using benchtop OPO setups.
ISSN:0034-6748
1089-7623
DOI:10.1063/1.3585982