Washington State University

^{Department of Chemistry} _{Peter Reilly Group}

Publications

Huntley, A.P., Reilly, P.T.A.: “Computational evaluation of mass filter acceptance and transmittance influenced by developing fields: An application of the plane method to investigate prefilter efficacy for rectangular wave operated mass filters” Journal of Mass Spectrometry. e4510 (2020).

Huntley, A.P., Brabeck, G.F., Reilly, P.T.A.: “Influence of the RF drive potential on the acceptance behavior of pure quadrupole mass filters operated in stability zones A and B” International Journal of Mass Spectrometry. 116303 (2020).

Reece, M.E., Huntley, A.P., Moon, A.M., Reilly, P.T.A.: “Digital Mass Analysis in a Linear Ion Trap without Auxiliary Waveforms” J. Am. Soc. Mass Spectrom. 31, 103–108 (2020).

Adam P. Huntley, Bojana Opačić, Gregory F. Brabeck, Peter T.A. Reilly, “Simulation of instantaneous changes in ion motion with waveform duty cycle” International Journal of Mass spectrometry, 2019.

Opačić, Bojana, Adam P. Huntley, Brian H. Clowers, Peter T. A. Reilly, “Digital mass filter analysis in stability zones A and B“,Journal of Mass Spectrometry, 2018. Featured Article and Cover story

Bojana Opačić, Nathan M.Hoffman, Zachary P.Gotlib, Brian H. Clowers, Peter T. A. Reilly,

“Using Digital Waveforms to Mitigate Solvent Clustering During Mass Filter Analysis of Proteins“, Journal of The American Society for Mass Spectrometry, 2018

Bojana Opačić, Nathan M. Hoffman, Brian H. Clowers, Peter T.A. Reilly,
“Impact of injection potential on measured ion response for digitally driven mass filters“,
International Journal of Mass Spectrometry, 2018.

N. M. Hoffman, Z. P. Gotlib, B. Opačić, A. P. Huntley, A. M. Moon, K. E. G. Donahoe, G. F. Brabeck and P. T. A. Reilly, “Digital Waveform Technology and the Next Generation of Mass Spectrometers”, Journal of The American Society for Mass Spectrometry, Oct. 2017.

Z. P. Gotlib, G. F. Brabeck, and P. T. A. Reilly, “Methodology and Characterization of Isolation and Preconcentration in a Gas-Filled Digital Linear Ion Guide,” Analytical Chemistry, vol. 89, pp. 4287-4293, Mar. 2017.

N. M. Hoffman, B. Opačić, and P. T. A. Reilly, “Note: An inexpensive square waveform ion funnel driver,” Review of Scientific Instruments, vol. 88, pp. 016104, Jan. 2017.

G. F. Brabeck and P. T. A. Reilly, “Computational Analysis of Quadrupole Mass Filters Employing Nontraditional Waveforms,” Journal of The American Society for Mass Spectrometry, vol. 27, pp. 1122-1127, Apr. 2016.

G. F. Brabeck, H. Koizumi, E. Koizumi, and P. T. A. Reilly, “Characterization of quadrupole mass filters operated with frequency-asymmetric and amplitude-asymmetric waveforms,” International Journal of Mass Spectrometry, vol. 404, pp. 8-13, Jun. 2016.

P. T. A. Reilly and G. F. Brabeck, “Mapping the pseudopotential well for all values of the Mathieu parameter q in digital and sinusoidal ion traps,” International Journal of Mass Spectrometry, vol. 392, pp. 86-90, Dec. 2015.

G. F. Brabeck, H. Chen, N. M. Hoffman, L. Wang, and P. T. A. Reilly, “Development of MS^n in Digitally Operated Linear Ion Guides,” Analytical Chemistry, vol. 86, pp. 7757-7763, Aug. 2014.

G. F. Brabeck and P. T. A. Reilly, “Mapping Ion Stability in Digitally Driven Ion Traps and Guides,” International Journal of Mass Spectrometry, vol. 364, pp. 1-8, May 2014.

R. Singh, V. Jayaram, and P. T. A. Reilly, “Duty cycle-based isolation in linear quadrupole ion traps,” International Journal of Mass Spectrometry, vol. 343–344, pp. 45–49, Jun. 2013.

X. Wang, H. Chen, J. Lee, and P. T. A. Reilly, “Increasing the trapping mass range to m/z = 10^9 —A major step toward high resolution mass analysis of intact RNA, DNA and viruses,” International Journal of Mass Spectrometry, vol. 328–329, pp. 28–35, Sep. 2012.

J. Lee, H. Chen, T. Liu, C. E. Berkman, and P. T. A. Reilly, “High Resolution Time-of-Flight Mass Analysis of the Entire Range of Intact Singly-Charged Proteins,” Anal. Chem., vol. 83, no. 24, pp. 9406–9412, Dec. 2011.

J. Lee, M. A. Marino, H. Koizumi, and P. T. A. Reilly, “Simulation of duty cycle-based trapping and ejection of massive ions using linear digital quadrupoles: The enabling technology for high resolution time-of-flight mass spectrometry in the ultra high mass range,” International Journal of Mass Spectrometry, vol. 304, no. 1, pp. 36–40, Jun. 2011.