Simon North
  • Professor
  • Executive Associate Dean
  • John W. Bevan Professor of Chemistry

Administrative Contact

Jeannine Scambray

jscambray@tamu.edu

979-845-0620

Research Areas
  • Analytical
  • Instrumentation
  • Physical
  • Spectroscopy & Dynamics

Biography

Dr. Simon W. North is the John W. Bevan Professor of Chemistry and has served as Executive Associate Dean in the College of Arts and Sciences since June 1, 2024. He earned his Ph.D. in chemistry from the University of California, Berkeley in 1995, then spent two years as a postdoctoral fellow at Brookhaven National Laboratory before joining the Texas A&M faculty in 1997 as a member of the Department of Chemistry. He had been the head of Texas A&M Chemistry since August 2016 after serving as interim head of the department for the previous seven months and as associate head from Sept. 2013 to Feb. 2016. In addition, he is co-director of the National Aerothermochemistry Laboratory and a former associate director of the Center for Atmospheric Chemistry and the Environment. Dr. North also served for nearly a decade as one of the primary advising and recruiting contacts for the Texas A&M Chemistry graduate program and played a lead role in the planning, programming and championing of Texas A&M’s Instructional Laboratory & Innovative Learning Building (ILSQ), described as the premier laboratory building in the country and a showcase for undergraduate chemistry teaching laboratories spanning general chemistry to organic chemistry. Widely respected for his teaching and research expertise in analytical and physical chemistry as well as in spectroscopy and dynamics, Dr. North and his research group seek to understand chemical reactivity on a microscopic quantum-state resolved level. His state-of-the-art laboratory contains equipment to perform experiments in chemical dynamics, energy transfer and kinetics and is associated with several interdisciplinary university research centers at Texas A&M. He also has led several impactful department-wide initiatives to revitalize the undergraduate curriculum in chemistry, including an overhaul of the upper division physical chemistry laboratory courses to better reflect the current state of modern research in the area. In addition to being recognized with the inaugural Administration Award in the College of Arts and Sciences last May, Dr. North is a past recipient of Texas A&M Association of Former Students Distinguished Achievement Awards in Teaching at both the university (2009) and college levels (2004 and 2010) — the last of which he was nominated for by his students.

Job Duties

  • Research Functions and Graduate Student Affairs

Research Interests

Our research involves trying to understand chemical reactivity on a microscopic quantum-state resolved level. We focus on isolated molecules in the gas-phase to develop a detailed description of the factors which influence the rates, energy disposal, and final products in a reaction. In order to address these issues we use lasers to carefully control the preparation of excited molecules and to probe all the properties of the reaction products. chemical reactivity on a microscopic quantum-state resolved levelOur specific interests include understanding atmospheric photochemistry, the tropospheric oxidation of biogenic hydrocarbons, and laser diagnostic development for flow field characterization. The laboratory contains equipment to perform state-of-the-art experiments in chemical dynamics and kinetics and is associated with several interdisciplinary University Research Centers. Our photochemistry experiments combine molecular beam and state-resolved ionization techniques with position-sensitive ion imaging to determine the identity and energy content of photochemical products in the absence of secondary collisions. Studies focus on the photodissociation of jet-cooled radicals of atmospheric relevance and preliminary results have already stimulated collaboration with several theoretical groups. The experiments provide a stringent test for modern theory and allow assessment of the impact that the photochemistry has on atmospheric modeling.

Our group is also interested in understanding tropospheric chemistry. One effort involves the study of the oxidation of tropospheric biogenic hydrocarbons which has major implications for local and regional air quality. In recent years it has become increasing evident that refining our understanding of atmospheric chemistry of hydrocarbons requires detailed characterization of the elementary reaction mechanism that must involve combined experimental and theoretical studies. Our approach is based on this philosophy, combining state-of-the-art experimental techniques, chemical ionization mass spectrometry and laser photolysis/laser induced fluorescence, with modern ab initio and rates theory calculations to obtain a comprehensive and predictive description of hydrocarbon oxidation chemistry. Ultimately our goal is to predict ozone formation on the regional and global scales as well as the long-range transport of NOx. Recently we have extended our atmospheric studies to include the development and application of field instrumentation for measuring trace radical species.

Finally, our group is involved in collaborative efforts with Rodney Bowersox (Aerospace Engineering) and the National Aerothermochemistry Laboratory at Texas A&M University. We are currently developing novel laser diagnostics for velocity and basic state characterization in hypersonic flows. This research focuses on optical characterization of high speed (hypersonic) flows; measurement of freestream turbulence, measurement of internal energy distributions and relaxation of non-thermal equilibrium (NTE) distributions, surface ablation and reactivity, and laser induced NTE driven turbulence. These measurements require the application of state-of-the art laser diagnostic techniques such as coherent anti-Stokes Raman spectroscopy (CARS), Raman, and two-line planar laser induced fluorescence (PLIF).

Educational Background

  • B. S., 1990, University of New Hampshire
  • Ph. D., 1995, University of California at Berkeley
  • Postdoctoral Fellow, 1995-1997, Brookhaven National Laboratory

Awards & Honors

  • College-level Association of Former Students Faculty Distinguished Achievement Award in Teaching (2010)
  • Co-Director, National Aerothermochemistry Laboratory
  • University Level Association of Former Students Faculty Distinguished Achievement Award in Teaching (2009)
  • College-level Association of Former Students Faculty Distinguished Achievement Award in Teaching (2004)
  • Associate Director, Center for Atmospheric Chemistry and the Environment

Selected Publications

  • C. E. Gunthardt, C. J. Wallace, G. E. Hall, R. W. Field, and S. W. North: "Anomalous Intensities in the 2+1 REMPI Spectrum of the E 1Π - X 1Σ Transition of CO", Journal of Chemical Physics, 123, 2780-2788 (2019). DOI: 10.1021/acs.jpca.9b00109

    C. J. Wallace, C. E. Gunthardt, G. C. McBane, and S. W. North: "Empirical assignment of absorbing electronic state contributions to OCS photodissociation product state populations from 214 to 248 nm" Chem. Phys. 520, 1 (2019)

    J. D. Winner, N. A. West, M. H. McIlvoy, Z. D. Buen, R. D. W. Bowersox, and S. W. North: "The role of near resonance electronic energy transfer on the collisional quenching of NO (A 2Σ+) by C6H6 and C6F6 at low temperature" Chem. Phys., 501, 86 (2018)

    M. L. Warter, C. E. Gunthardt, W. Wei, G. C. McBane, and S. W. North: "Nascent O2 (a 1Δg, v = 0, 1) Rotational Distributions from the Photodissociation of Jet-Cooled O3 in the Hartley Band", Journal of Chemical Physics, 149, 134309 (2018). DOI: 10.1063/1.5051540

    W. Wei, C. J. Wallace, M. P. Grubb, and S. W. North: "A Method of Extracting Speed-Dependent Vector Correlations from 2+1 REMPI Ion Images" Journal of Chemical Physics, 147, 013947 (2017). DOI: 10.1063/1.4985704