Curriculum Vitae Dr. Hideya Koizumi Mail Address P.O. Box 419 State University, AR 72467 Office LSW 330B Lab LSW 508 Tel (870) 972-2399 Office FAX (870) 972-3089 Email hkoizumi@astate.edu Position Held Instructor Chemistry Assistant Prof. of Chemistry Arkansas State University Arkansas State University 2009 2009-Current Education B.S. in Chemistry, Oklahoma State University -1996 (Advisor, Prof. Lionel Ruff) B.S. in Mathematics, Oklahoma State University -1997 Ph.D. in Chemistry, University of Utah -2004 (Prof. Peter B. Armentrout) Post Doctoral Study at University of North Carolina at Chapel Hill Camille and Henry Dreyfus Postdoctoral Fellowship -2006 (Prof. Tomas Baer) Post Doctoral Study at Oak Ridge National Laboratory -2008 (Dr. Peter T. A. Reilly) PhD. Dissertation “Collision Induced Dissociations and Association Reactions Using Guided Ion Beam Tandem Mass Spectrometer Application of Statistical Theory” [2004] Dissertation Summary Kinetic energy dependence of collision induced dissociation and association reactions are investigated using guided ion beam tandem mass spectrometer. New thermokinetic method for large systems are developed and tested in several cases. Award Recipient of Camille and Henry Dreyfus Postdoctoral Fellowship 2004-2006 Research Interest Aerosol detection; particle sizing (aerodynamic lens and DMA), trace mass analysis, reTOF, quadrupole mass filter, quadrupole ion trap, laser ablation Instrumentation; development of any TOF based mass spectrometer, particle analyzer, digital quadrupole ion trap and quadrupole mass filter, aerosol inlet, circuit board design Biological; aerosol MALDI(Matrix Assisted Laser Desorption Ionization) mass spectrometry Gas phase ion chemistry; including metal ligand interaction, PST and RRKM theory Reaction dynamics; including velocity distribution of transient complex, kinetic energy release Photoelectron photoion coincidence; including photoionization, velocity distribution, velocity focusing ZEKE Quantum chemistry and theoretical chemistry; coupled cluster theory, density functional theory, relativistic effect, CBS limit for heavy atoms, trajectory calculations, self consistent reaction field Modeling associated with experiments Electrospray ionization, ion dynamics in MS, computational fluid dynamics and transport phenomena (finite element methods, finite volume methods) Experience Experiment Gas phase ion chemistry, metal ligand interaction, guided ion beam tandem mass spectroscopy, TOF multi-pole ion guide, quadrupole mass spectrometer, time of flight mass spectrometer, quadrupole ion trap (digital and conventional), reaction kinetics, Photoelectron photoion coincidence technique, development of portable aerosol mass spectrometer, light scatter cell etc. Instrumentation Development of reTOF, TOF based particle sizing, digital quadrupole ion trap and quadrupole mass filter, aerosol inlet, high efficiency ion injection methods, high resolution function generator Biological Aerosol MALDI(Matrix Assisted Laser Desorption Ionization) Mass Spectrometry, Several aerosol generators including electrospray aerosol generator Computational Unimolecular statistical theory (CRUNCH, PST, Pepico etc) Several quantum chemistry packages such as Gaussian, Molpro, GAMESS etc. Commercial CFD package (COMSOL) LabVIEW (virtual instrumentation), FPGA, SIMION, Java, C, Visual Basic Mathematical Modeling Fortran, Mathematica, Maple etc Selected Poster Presentations 2001 Gordon research conference “Association reaction of Cu+ ion and dimethoxy ethane” 2002 Arrowhead ion chemistry conference “TOF study of Cu+ ion and dimethoxy ethane association reaction. Velocity distribution of long lived complex and its fragments” 2004 American chemical society national meeting selected poster session “Heats of formation of acetyl and propionyl radical and ion threshold photoelectron photoion coincidence” 2004 American chemical society national meeting “Quantitative study of alkyl nitates in single aerosol particles” 2005 Gordon research conference “Heats of formation of acetyl and propionyl radical and ion threshold photoelectron photoion coincidence” 2007 ASMS Conference on Mass Spectrometry “On Line Aerosol MALDI Mass Spectrometer Using Digital Quadrupole Ion Trap” 2008 Arrowhead ion chemistry conference “Digital Ion Trap and Digital Quad Mass Spectrometry” 2008 ASMS Conference on Mass Spectrometry “A New Method for Digitally Producing Waveforms and Its Use in Digital Ion Trap Mass Spectrometry” 2010 ASMS “Probing Rapid Method of Isotope 87Sr/86Sr Analysis by ESI-QIT-MS” 2010 American chemical society national meeting “Interaction of 12c4 with Alkali Metal Cation in Aqueous Solution: Theoretical Investigation Using Polarized Continuum Model” 2010 INBRE Research Conference “Breaking Through Limitations: Instrumentation Analysis for Larger Molecules: A Theoretical Study and Simulations” Oral Presentations 1999 Arrowhead ion chemistry conference “Collision induced dissociation and theoretical study of Cu+ and dimethyl ether” 2001 Arrowhead ion chemistry conference “Collision induced dissociation and association reaction of Cu+ and dimethoxy ethane” 2003 Arrowhead ion chemistry conference “Association reaction of alkali metal and dimethoxy ethane” 2006 Oak Ridge National Laboratory “Development of portable aerosol mass spectrometer” Co-author of several other oral presentations (not listed here) Publications (Conference proceedings not listed here) [1] Collision-Induced Dissociation and Theoretical Studies of Cu+-Dimethyl Ether Complexes, Koizumi, H.; Zhang, X.-G.; Armentrout, P. B.; J. Phys. Chem. A.; 105(11); 2001, pp. 2444-2452 [2] Collision-Induced Dissociation and Theoretical Studies of Cu+-Dimethoxyethane Complexes, Koizumi, H.; Armentrout, P. B.; Journal of The American Society for Mass Spectrometry; 12(5); 2001, pp. 480-489. [3] Bond Dissociation Energies and Structures of CuNO+ and Cu(NO)2+, Koszinowski, K.; Schroder, D.; Schwarz, H.; Holthausen, M. C.; Sauer, J.; Koizumi, H.; Armentrout, P. B.; Inorg. Chem; 41(22); 2002, pp. 5882-5890. [4] Collision-Induced Dissociation and Theoretical Studies of Ag+(methanol)n, n = 1- 4, Koizumi, H.; Larsen, M.; Armentrout, P. B.; Feller, D.; J. Phys. Chem. A.; 107(16); 2003, pp. 2829-2838. [5] Sequential Bond Energies of Ag+(H2O)n and Ag+(dimethyl ether)n, n = 1–4, determined by threshold collision-induced dissociation, Koizumi, H.; Larson, M.; Muntean F.; Armentrout P. B.; International Journal of Mass Spectrometry; 228(2-3), 2003, pp. 221-235 [6] The Kinetic Energy Dependence of Association Reactions. A New Thermokinetic Method for Large Systems, Koizumi, H.; Armentrout, P. B.; The Journal of Chemical Physics; 119(24), 2003, pp. 12819-12829 [7] Reaction of Cu+ with Dimethoxyethane: Competition Between Association and Multiple Dissociation Channels, Koizumi, H.; Muntean F.; Armentrout P. B.; The Journal of Chemical Physics; 120(2), 2004, pp. 756-766 [8] Heats of Formation of the Acetyl Radical and Ion Obtained by Threshold Photoelectron Photoion Coincidence, Fogleman, E. A.; Koizumi, H.; Kercher, J. P.; Sztaray, B.; Baer, T.; J. Phys. Chem. A.; 108(24); 2004, pp. 5288-5294. [9] The Heats of Formation of tert-Butyl Isocyanide and Other Alkyl Isocyanides by Photoelectron Photoion Coincidence Spectroscopy, Koizumi, H.; Baer, T.; J. Phys. Chem. A.; 108(28); 2004, pp. 5956-5961. [10] Heats of Formation of the Propionyl Ion and Radical and 2,3-Pentanedione by Threshold Photoelectron Photoion Coincidence Spectroscopy, Kercher, J. P.; Fogleman, E. A.; Koizumi, H.; Sztaray, B.; Baer, T.; J. Phys. Chem. A.;109(5); 2005, pp. 939-946. [11] Sequential Bond Energies of Fe+(CO2)n, n = 1-5, Determined by Threshold Collision-Induced Dissociation and ab Initio Theory, Armentrout, P. B.; Koizumi, H.; MacKenna, M.; J. Phys. Chem. A.; 2005; 109(50) pp. 11365-11375 [12] Heats of Formation of GeH4, GeF4 and Ge(CH3)4, Koizumi, H.; Davalos, J. Z.; Baer, T.; Chemical Physics ; 2006; 324(2-3) pp. 385-392 [13] Heat of Formation of Ge (CH3)3X X = Cl, Br, CH3, Davalos, J. Z.; Koizumi, H.; Baer, T. J. Phys. Chem. A.; 2006; 110(15) pp. 5032-5037 [14] Trapping of Intact, Singly-Charged, Bovine Serum Albumin Ions Injected from the Atmosphere with a 10-cm Diameter, Frequency-Adjusted, Linear Quadrupole Ion Trap, Koizumi, H.; Whitten, W.B; Reilly P.T., Journal of The American Society for Mass Spectrometry; Volume: 281 Issue: 3 Pages: 108-114 [15] The Effect of Endcap Electrode Holes on the Resonant Ejection from an Ion Trap, Koizumi, H.; Whitten, W.B; Reilly P.T., Koizumi, E., International Journal of Mass Spectrometry Volume: 281 Issue: 3 Pages: 108-114 [16] Derivation of mathematical expressions to define resonant ejection from square and sinusoidal wave ion traps, Koizumi, H.; Whitten, W.B; Reilly P.T., Koizumi, E International Journal of Mass Spectrometry Volume: 286 Issue: 2-3 Pages: 64-69 [17] Controlling the Expansion into Vacuum-the Enabling Technology for Trapping Atmosphere-Sampled Particulate Ions Koizumi H, Wang XL, Whitten WB, Reilly P.T., Journal of The American Society for Mass Spectrometry Volume: 21 Issue: 2 Pages: 242-248 [18] A novel phase-coherent programmable clock for high-precision arbitrary waveform generation applied to digital ion trap mass spectrometry Koizumi H, Jatko B, Andrews WH, Whitten WB, Reilly P.T. International Journal of Mass Spectrometry Volume: 292 Issue: 1-3 Pages: 23-31 [19] Theoretical and ATR-FTIR Study of Free 12-Crown-4 in Aqueous Solution Tanika Arora, Hashim Ali, W. A. Burns, E. Koizumi, H. Koizumi Chemical Physics Letters Volume. 502, Issue: 4-6, Pages: 253-258 [20] 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 J. Lee, M A. Marino, Koizumi H, Reilly P.T. International Journal of Mass Spectrometry Volume: 304 Issue: 1, Pages: 36-40 [21] An Investigation of aqueous Sr, Rb, and Crown Ether Mixture Solutions by ESIQITMS by Post Column Addition Sheng Song, Rohana Liyanage, Jackson Lay, Richard Warby, Koizumi H, Analytical letters Volume. 44, Issue: 12, Pages 2170-2181 [22] A hybrid approach to calculating Coulombic interactions: An effective and efficient method for optimization of simulations of many ions in quadrupole ion storage device with SIMION Saito K., Reilly P. T. A., Koizumi E., Koizumi H., International Journal of Mass Spectrometry Volume: 315 Issue: 1, Pages: 74-80 [22] Application of Parallel Hybrid Algorithm in Massively Parallel GPGPU—The Improved Effective and Efficient Method for Calculating Coulombic Interactions in Simulations of Many Ions with SIMION Saito K., Koizumi E., Koizumi H., Journal of The American Society for Mass Spectrometry {Accepted for publication}Volume: X Issue: X Pages: X-X Patents Awarded [1] US Patent 20090256640 AGILE HIGH RESOLUTION ARBITRARY WAVEFORM GENERATOR WITH JITTERLESS FREQUENCY STEPPING 10-15-2009 Teaching General Chemistry (Lecture) Computer for Chemistry (Lecture) Quantitative Analysis (Lecture & Lab) Instrumentation (Lecture & Lab) Special Topics Research in Chemistry Advisee Master of Science Graduated Sheng Song M.S. 2010 Spring Arkansas State University Tanika Arora M.S. Summer 2010 Arkansas State University Yi She M.S. 2010 Fall Arkansas State University Bachelor of Science Blake Shands 2010 Jacquelyn Thomas 2010 Larry Neighbors 2011 Current Chen Xi Zhu M.S. Kenichiro Saito B.S. Professional affiliations American Society for Mass Spectrometry American Chemical Society American Association for Aerosol Research