LTC Matthew L. Gettings

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Education

PhD., Materials Engineering, Purdue University, 2021

M.S., Nuclear Engineering, Air Force Institute of Technology, 2014

B.S., Electrical Engineering, United States Air Force Academy, 2003

Publications

[15] (DRAFT) Gettings, M., Absil, C., Porcaro, N., Thomas, N., Verrill, K., Kowalski, E., Sabatini, J. (2024), Synthesis and Characterization of Novel Energetic Stabilizers. (Submission for OPR&D Journal.)

[14] Gettings, M., Zeller, M. and Piercey D. G. (2024). Crystal structure of the 1:1 cocrystal 5,5'-(triaz-1-ene-1,3-diyl)bis(3-nitro-1H-1,2,4-triazole)-triethylammonium nitrate. Acta Cryst. E80.

[13] Gettings, M., Zeller, M. and Piercey D. G. (2023), Synthesis and Crystal Structures of 4-Methoxyphenyl-Nphenyl hydrazine-1-carbothioamide isomers and 2,2’-(1,2,4,5-tetrazine-3,6-diyl) bis (N-phenylhydrazine-1-carbothioamide). ChemistrySelect, 8(26). DOI: 10.1002/slct.202302016

[12] Thoenen, M., Gettings, M., Holt, C., Frontier, A. J., Caruana, P. A., Zeller, M., ... & Piercey, D. G. (2022), Approach to High-Nitrogen Materials with Dual-Use Properties via Tetraaza-Nazarov Cyclization. Inorganic Chemistry, 61(45), 18095-18101

[11] Lagasse, B.; Bowers, P.; Kick, A.; Gettings, M.; Chin, J.; Calangi, N.; McMahon, R.; Burpo, F. J. Army Officer Corps Science, Technology, Engineering and Mathematics (STEM) Foundation Gaps Place Countering Weapons of Mass Destruction (CWMD) Operations at Risk – Part 3*. Countering WMD J. 2023, No. 26, pages 43-51

[10] Kick, A.; Hummel, S.; Gettings, M.; Bowers, P.; Lagasse, B.; Burpo, F. J. Army Officer Corps Science, Technology, Engineering and Mathematics (STEM) Foundation Gaps Place Countering Weapons of Mass Destruction (CWMD) Operations at Risk – Part 2*. Countering WMD J. 2022, No. 24, pages 88–95

[9] Kick, A.; Hummel, S.; Gettings, M.; Bowers, P.; Burpo, F. J. Army Officer Corps Science, Technology, Engineering and Mathematics (STEM) Foundation Gaps Place Countering Weapons of Mass Destruction (CWMD) Operations at Risk – Part 1*. Countering WMD J. 2021, No. 23, pages 88–94

[8] Gettings, M., "Chemistry of Complex High-Nitrogen Materials," PhD dissertation, Purdue University Graduate School, 2021 https://hammer.purdue.edu/authors/Matthew_Gettings/10692975

[7] Gettings, M. L., Davis Finch, S. E., Sethia, A., Byrd, E. F., Zeller, M., & Piercey, D. G. (2021). Heterocyclic Nitrilimines and Their Use in the Synthesis of Complex High-Nitrogen Materials. Inorganic Chemistry, 60(11), 7607-7611

[6] Gettings, M. L., Byrd, E. F., Zeller, M., & Piercey, D. (2021). Methyl sydnone imine and its energetic salts. New Journal of Chemistry, 45(4), 2228-2236

[5] Gettings, M. L., & Piercey, D. (2020). Azasydnones and their use in Energetic Materials. Energetic Materials Frontiers, 1(3-4), 136-140

[4] Gettings, M. L., Thoenen, M. T., Byrd, E. F., Sabatini, J. J., Zeller, M., & Piercey, D. G. (2020). Tetrazole Azasydnone (C2N7O2H) And Its Salts: High Performing Zwitterionic Energetic Materials Containing A Unique Explosophore. Chemistry–A European Journal, 26(64), 14530-14535

[3] Gettings, M. L., Zeller, M., Byrd, E., & Piercey, D. G. (2019). Synthesis and Characterization of Salts of the 3, 6-Dinitro-[1, 2, 4] triazolo [4, 3-b][1, 2, 4] triazolate Anion: Insensitive Energetic Materials Available From Economical Precursors. Zeitschrift für anorganische und allgemeine Chemie (ZAAC), 645(20), 1197-1204

[2] M.L. Gettings, J.W. McClory, S.R. McHale, and B.R. Kowash, "Estimating Apparent Surface Temperature of Wasp Prime Using Digitized Nuclear Fireball Films," Journal of Radiation Effects, Research & Engineering (JRERE). vol. 35., no. 1, pp.74-85, April 2017

[1] M.L. Gettings, J.W. McClory, S.R. McHale, and B.R. Kowash, "Yield Estimate of Wasp Prime Using Digitized Nuclear Fireball Films," Journal of Radiation Effects, Research & Engineering (JRERE). vol. 34., no. 1, pp.84-94, December 2016