Phil Westmoreland

Ram, H., DePompa, C. M., & Westmoreland, P. R. (2024). Thermochemistry of Gas-Phase Thermal Oxidation of C2 to C8 Perfluorinated Sulfonic Acids with Extrapolation to C16. The Journal of Physical Chemistry A. https://doi.org/10.1021/acs.jpca.4c01208

Ram, H., Sadej, T. P., Murphy, C. C., Mallo, T. J., & Westmoreland, P. R. (2024, February 9). Thermochemistry of Species in Gas-Phase Thermal Oxidation of C<sub>2</sub> to C<sub>8</sub> Perfluorinated Carboxylic Acids. JOURNAL OF PHYSICAL CHEMISTRY A, Vol. 2. https://doi.org/10.1021/acs.jpca.3c06937

Zulueta, B., Tulyani, S. V., Westmoreland, P. R., Frisch, M. J., Petersson, E. J., Petersson, G. A., & Keith, J. A. (2022, July 18). A Bond-Energy/Bond-Order and Populations Relationship. JOURNAL OF CHEMICAL THEORY AND COMPUTATION, Vol. 7. https://doi.org/10.1021/acs.jctc.2c00334

Tian, Y., Westmoreland, P. R., & Li, F. (2022). CaMn0.9Ti0.1O3 based redox catalysts for chemical looping – Oxidative dehydrogenation of ethane: Effects of Na2MoO4 promoter and degree of reduction on the reaction kinetics. Catalysis Today, 417. https://doi.org/10.1016/j.cattod.2022.04.026

Tian, Y., Luongo, G., Donat, F., Müller, C. R., Larring, Y., Westmoreland, P. R., & Li, F. (2022). Oxygen Nonstoichiometry and Defect Models of Brownmillerite-Structured Ca<sub>2</sub>MnAlO<sub>5+δ</sub> for Chemical Looping Air Separation. ACS Sustainable Chemistry & Engineering, 10(31), 10393–10402. https://doi.org/10.1021/acssuschemeng.2c03485

Clark, J. A., Thacker, P. J., McGill, C. J., Miles, J. R., Westmoreland, P. R., Efimenko, K., … Santiso, E. E. (2021). DFT Analysis of Organotin Catalytic Mechanisms in Dehydration Esterification Reactions for Terephthalic Acid and 2,2,4,4-Tetramethyl-1,3-cyclobutanediol. JOURNAL OF PHYSICAL CHEMISTRY A, 125(23), 4943–4956. https://doi.org/10.1021/acs.jpca.1c00850

Mascarenhas, V. J., Weber, C. N., & Westmoreland, P. R. (2021). Estimating flammability limits through predicting non-adiabatic laminar flame properties Vernon J. Mascarenhas, Christopher N. Weber, Phillip R. Westmoreland *. PROCEEDINGS OF THE COMBUSTION INSTITUTE, 38(3), 4673–4681. https://doi.org/10.1016/j.proci.2020.06.026

Braatz, R. D., Badgwell, T. A., & Westmoreland, P. R. (2021, March). Foundations in Process Analytics and Machine Learning (FOPAM). COMPUTERS & CHEMICAL ENGINEERING, Vol. 146. https://doi.org/10.1016/j.compchemeng.2021.107225

McGill, C. J., & Westmoreland, P. R. (2021). Molecular Carbonyl Insertion as the Homogeneous Catalysis Mechanism for Transesterification of Dimethyl Terephthalate with Ethylene Glycol. INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH, 60(14), 5090–5101. https://doi.org/10.1021/acs.iecr.0c05188

Tian, Y., Dudek, R. B., Westmoreland, P. R., & Li, F. (2020). Effect of Sodium Tungstate Promoter on the Reduction Kinetics of CaMn0.9Fe0.1O3 for Chemical Looping - Oxidative Dehydrogenation of Ethane. CHEMICAL ENGINEERING JOURNAL, 398. https://doi.org/10.1016/j.cej.2020.125583

Xiong, Q., Hong, K., Shu, S., Westmoreland, P., & Xiao, R. (2020, March). Multiscale numerical simulation of biomass thermochemical conversion: From micro to macro scales. FUEL PROCESSING TECHNOLOGY, Vol. 199. https://doi.org/10.1016/j.fuproc.2019.106294

Bose, A., & Westmoreland, P. R. (2020). Predicting Total Electron-Ionization Cross Sections and GC-MS Calibration Factors Using Machine Learning. JOURNAL OF PHYSICAL CHEMISTRY A, 124(50), 10600–10615. https://doi.org/10.1021/acs.jpca.0c06308

Westmoreland, P. R. (2019). [Review of Pyrolysis kinetics for lignocellulosic biomass-to-oil from molecular modeling]. CURRENT OPINION IN CHEMICAL ENGINEERING, 23, 123–129. https://doi.org/10.1016/j.coche.2019.03.011

Al-Nu’airat, J., Dlugogorski, B. Z., Gao, X., Zeinali, N., Skut, J., Westmoreland, P. R., … Altarawneh, M. (2019). Reaction of phenol with singlet oxygen. Physical Chemistry Chemical Physics, 21(1), 171–183. https://doi.org/10.1039/c8cp04852e

Fenard, Y., Gil, A., Vanhove, G., Carstensen, H.-H., Van Geem, K. M., Westmoreland, P. R., … Battin-Leclerc, F. (2018). A model of tetrahydrofuran low-temperature oxidation based on theoretically calculated rate constants. Combustion and Flame, 191, 252–269. https://doi.org/10.1016/j.combustflame.2018.01.006

Oreluk, J., Needham, C. D., Baskaran, S., Sarathy, S. M., Burke, M. P., West, R. H., … Westmoreland, P. R. (2018). Dynamic Chemical Model for H2/O2 Combustion Developed through a Community Workflow. Retrieved from https://arxiv.org/abs/1801.10093

McGill, C. J., & Westmoreland, P. R. (2018). Monosaccharide Isomer Interconversions Become Significant at High Temperatures. The Journal of Physical Chemistry A, 123(1), 120–131. https://doi.org/10.1021/acs.jpca.8b07217

Westmoreland, P. R., & McCabe, C. (2018). Revisiting the Future of Chemical Engineering. Chemical Engineering Progress, 114(10), 26–37.

Fairman, E., & Westmoreland, P. R. (2018). The ChE in Context: Your Voice and Role in Public Outreach. Chemical Engineering Progress, 114(4), 63.

Airman, E., & Westmoreland, P. (2018). Your voice and rote in public outreach. Chemical Engineering Progress , 114(4), 63–63.

Ternes, M. E., & Westmoreland, P. R. (2017, June 2). AIChE and the Paris Climate Agreement. Retrieved from ChEnected website: https://www.aiche.org/chenected/2017/06/aiche-and-paris-climate-agreement

Needham, C. D., & Westmoreland, P. R. (2017). Combustion and flammability chemistry for the refrigerant HFO-1234yf (2,3,3,3-tetrafluroropropene). Combustion and Flame, 184, 176–185. https://doi.org/10.1016/j.combustflame.2017.06.004

Oluwoye, I., Dlugogorski, B. Z., Gore, J., Westmoreland, P. R., & Altarawneh, M. (2017). Enhanced ignition of biomass in presence of NOx. Fire Safety Journal, 91, 235–242. https://doi.org/10.1016/j.firesaf.2017.03.042

Siddique, K., Altarawneh, M., Gore, J., Westmoreland, P. R., & Dlugogorski, B. Z. (2017). Hydrogen Abstraction from Hydrocarbons by NH2. The Journal of Physical Chemistry A, 121(11), 2221–2231. https://doi.org/10.1021/acs.jpca.6b12890

Rodriguez, A., Herbinet, O., Wang, Z., Qi, F., Fittschen, C., Westmoreland, P. R., & Battin-Leclerc, F. (2017). Measuring hydroperoxide chain-branching agents during  n -pentane low-temperature oxidation. Proceedings of the Combustion Institute, 36(1), 333–342. https://doi.org/10.1016/j.proci.2016.05.044

Al-Nu’airat, J., Altarawneh, M., Gao, X., Westmoreland, P. R., & Dlugogorski, B. Z. (2017). Reaction of Aniline with Singlet Oxygen (O2 1Δg). The Journal of Physical Chemistry A, 121(17), 3199–3206. https://doi.org/10.1021/acs.jpca.7b00765

Ternes, M. E., & Westmoreland, P. (2017). The ChE in Context: Members Will Shape AIChE’s Climate Change Policy. Chemical Engineering Progress, 113(7), 16.

Westmoreland, P. R. (2017). The ChE in Context: PAIC, The ChE’s Voice in and about Government. Chemical Engineering Progress, 113(7), 26.

Westmoreland, P. R. (2017, February 13). The Importance of International Exchanges to Chemical Engineering. Retrieved from ChEnected website: https://www.aiche.org/chenected/2017/02/importance-international-exchanges-chemical-engineering

Westmoreland, P. R., & Fahey, P. J. (2016). Dehydration and dehydrogenation kinetics of OH groups in biomass pyrolysis. 2nd international conference on biomass (iconbm 2016), 50, 73–78.

Westmoreland, P., & Fahey, P. (2016). Dehydration and dehydrogenation kinetics of oh groups in biomass pyrolysis. Chemical Engineering Transactions, 50, 73–78. https://doi.org/10.3303/CET1650013

Seshadri, V., & Westmoreland, P. R. (2016). Roles of hydroxyls in the noncatalytic and catalyzed formation of levoglucosan from glucose. CATALYSIS TODAY, 269, 110–121. https://doi.org/10.1016/j.cattod.2015.10.033

Yeates, D. R., Li, W., Westmoreland, P. R., Speight, W., Russi, T., Packard, A., & Frenklach, M. (2015). Integrated data-model analysis facilitated by an Instrumental Model. Proceedings of the Combustion Institute, 35(1), 597–605. https://doi.org/10.1016/j.proci.2014.05.090

Westmoreland, P. R. (2014). Opportunities and challenges for a Golden Age of chemical engineering. Frontiers of Chemical Science and Engineering, 8(1), 1–7. https://doi.org/10.1007/s11705-014-1416-z

Labbe, N. J., Seshadri, V., Kasper, T., Hansen, N., Oßwald, P., & Westmoreland, P. R. (2013). Flame chemistry of tetrahydropyran as a model heteroatomic biofuel. Proceedings of the Combustion Institute, 34(1), 259–267. https://doi.org/10.1016/j.proci.2012.07.027

Cao, J., Meador, M. A., Baba, M. L., Ferreira, P. M., Madou, M., Scacchi, W., … al. (2013). Implications: Societal Collective Outcomes, Including Manufacturing. CONVERGENCE OF KNOWLEDGE, TECHNOLOGY AND SOCIETY: BEYOND CONVERGENCE OF NANO-BIO-INFO-COGNITIVE TECHNOLOGIES, pp. 255–285. https://doi.org/10.1007/978-3-319-02204-8_7

Westmoreland, P. R. (2013, December 4). Second Phase of Education: Lane Daley at Eastman Chemical in Kingsport. Retrieved from ChEnected website: https://www.aiche.org/chenected/2013/12/second-phase-education-lane-daley-eastman-chemical-kingsport

Westmoreland, P. R. (2013, November 21). Second Phase of Education: Mariam Al-Meer at Shell in Qatar. Retrieved from ChEnected website: https://www.aiche.org/chenected/2013/11/second-phase-education-mariam-al-meer-shell-qatar

Li, S., Davidson, D. F., Hanson, R. K., Labbe, N. J., Westmoreland, P. R., Oßwald, P., & Kohse-Höinghaus, K. (2013). Shock tube measurements and model development for morpholine pyrolysis and oxidation at high pressures. Combustion and Flame, 160(9), 1559–1571. https://doi.org/10.1016/j.combustflame.2013.03.027

Westmoreland, P. R. (2013, October 23). The Second Phase of ChE Education. Retrieved from ChEnected website: https://www.aiche.org/chenected/2013/10/second-phase-che-education

Westmoreland, P. R. (2012, October 24). Biology and ChE: Applying a Molecular Science (Part I). Retrieved from We Are ChE: Entering a Golden Age website: https://www.aiche.org/chenected/2012/10/biology-and-che-applying-molecular-science-part-i

Westmoreland, P. R. (2012, November 7). Biology and ChE: Applying a Molecular Science (Part II). Retrieved from We Are ChE: Entering a Golden Age website: https://www.aiche.org/chenected/2012/11/biology-and-che-applying-molecular-science-part-ii

Westmoreland, P. R. (2012, November 14). ChE Computing Becomes Cyberinfrastructure. Retrieved from We Are ChE: Entering a Golden Age website: https://www.aiche.org/chenected/2012/11/che-computing-becomes-cyberinfrastructure

Westmoreland, P. R. (2012, September 26). ChE-style Manufacturing Moves into the Spotlight. Retrieved from We Are ChE: Entering a Golden Age website: https://www.aiche.org/chenected/2012/09/che-style-manufacturing-moves-spotlight

Seshadri, V., & Westmoreland, P. R. (2012). Concerted Reactions and Mechanism of Glucose Pyrolysis and Implications for Cellulose Kinetics. The Journal of Physical Chemistry A, 116(49), 11997–12013. https://doi.org/10.1021/jp3085099

Westmoreland, P. R. (2012, December 14). Embracing the Breadth and the Unity of ChE. Retrieved from We Are ChE: Entering a Golden Age website: https://www.aiche.org/chenected/2012/12/embracing-breadth-and-unity-che

Westmoreland, P. R. (2012, September 19). Entering a New Golden Age of Chemical Engineering. Retrieved from We Are ChE: Entering a Golden Age website: https://www.aiche.org/chenected/2012/09/entering-new-golden-age-chemical-engineering

Hansen, N., Miller, J. A., Klippenstein, S. J., Westmoreland, P. R., & Kohse-Hoeinghaus, K. (2012). Exploring formation pathways of aromatic compounds in laboratory-based model flames of aliphatic fuels. COMBUSTION EXPLOSION AND SHOCK WAVES, 48(5), 508–515. https://doi.org/10.1134/s0010508212050024

Westmoreland, P. R. (2012, December 5). From Big Data to Smart Manufacturing. Retrieved from We Are ChE: Entering a Golden Age website: https://www.aiche.org/chenected/2012/12/big-data-smart-manufacturing

Westmoreland, P. R. (2012, November 29). Massively Parallel Computing and Massive Impacts for ChE. Retrieved from We Are ChE: Entering a Golden Age website: https://www.aiche.org/chenected/2012/11/massively-parallel-computing-and-massive-impacts-che

Westmoreland, P. R. (2012, October 3). More ChE Manufacturing: Rebuilding the Body. Retrieved from We Are ChE: Entering a Golden Age website: https://www.aiche.org/chenected/2012/10/more-che-manufacturing-rebuilding-body

Westmoreland, P. R. (2012, December 20). Seizing the Future of Chemical Engineering. Retrieved from We Are ChE: Entering a Golden Age website: https://www.aiche.org/chenected/2012/12/seizing-future-che

Westmoreland, P. R. (2012, October 10). Shale Gas in the Middle of the Worldwide Energy Drama. Retrieved from We Are ChE: Entering a Golden Age website: https://www.aiche.org/chenected/2012/10/shale-gas-middle-worldwide-energy-drama

Westmoreland, P. R. (2012, October 17). The New Energy Mix: Abundance and Sustainability?” Retrieved from We Are ChE: Entering a Golden Age website: https://www.aiche.org/chenected/2012/10/new-energy-mix-abundance-and-sustainability

Smith, K. D., Bruns, M., Stoliarov, S. I., Nyden, M. R., Ezekoye, O. A., & Westmoreland, P. R. (2011). Assessing the effect of molecular weight on the kinetics of backbone scission reactions in polyethylene using Reactive Molecular Dynamics. Polymer, 52(14), 3104–3111. https://doi.org/10.1016/j.polymer.2011.04.035

Lucassen, A., Labbe, N., Westmoreland, P. R., & Kohse-Höinghaus, K. (2011). Combustion chemistry and fuel-nitrogen conversion in a laminar premixed flame of morpholine as a model biofuel. Combustion and Flame, 158(9), 1647–1666. https://doi.org/10.1016/j.combustflame.2011.02.010

Hansen, N., Kasper, T., Yang, B., Cool, T. A., Li, W., Westmoreland, P. R., … Kohse-Höinghaus, K. (2011). Fuel-structure dependence of benzene formation processes in premixed flames fueled by C6H12 isomers. Proceedings of the Combustion Institute, 33(1), 585–592. https://doi.org/10.1016/j.proci.2010.05.056

Kasper, T., Lucassen, A., Jasper, A. W., Li, W., Westmoreland, P., Kohse-Höinghaus, K., … al. (2011). Identification of Tetrahydrofuran Reaction Pathways in Premixed Flames. Zeitschrift Für Physikalische Chemie, 225(11-12), 1237–1270. https://doi.org/10.1524/zpch.2011.0163

Frassoldati, A., Faravelli, T., Ranzi, E., Kohse-Höinghaus, K., & Westmoreland, P. R. (2011). Kinetic modeling study of ethanol and dimethyl ether addition to premixed low-pressure propene–oxygen–argon flames. Combustion and Flame, 158(7), 1264–1276. https://doi.org/10.1016/j.combustflame.2010.12.015

Li, W., Law, M. E., Westmoreland, P. R., Kasper, T., Hansen, N., & Kohse-Höinghaus, K. (2011). Multiple benzene-formation paths in a fuel-rich cyclohexane flame. Combustion and Flame, 158(11), 2077–2089. https://doi.org/10.1016/j.combustflame.2011.03.014

Kohse-Höinghaus, K., Oßwald, P., Cool, T. A., Kasper, T., Hansen, N., Qi, F., … Westmoreland, P. R. (2010). Biofuel Combustion Chemistry: From Ethanol to Biodiesel. Angewandte Chemie International Edition, 49(21), 3572–3597. https://doi.org/10.1002/anie.200905335

Kohse-Hoinghaus, K., Osswald, P., Cool, T. A., Kasper, T., Hansen, N., Qi, F., … Westmoreland, P. R. (2010). [Review of Biofuel combustion chemistry: From ethanol to biodiesel]. Angewandte Chemie [International Edition in English], 49(21), 3572–3597.

Kohse-Höinghaus, K., Oßwald, P., Cool, T. A., Kasper, T., Hansen, N., Qi, F., … Westmoreland, P. R. (2010). Cover Picture: Biofuel Combustion Chemistry: From Ethanol to Biodiesel (Angew. Chem. Int. Ed. 21/2010). Angewandte Chemie International Edition, 49(21), 3545–3545. https://doi.org/10.1002/anie.201001648

Mosurkal, R., Tucci, V., Samuelson, L. A., Smith, K. D., Westmoreland, P. R., Parmar, V. S., … Watterson, A. C. (2010). Novel Organo-Siloxane Copolymers for Flame Retardant Applications. In S. J. Clarson (Ed.), ACS Symposium Series (Vol. 1051, pp. 157–165). https://doi.org/10.1021/bk-2010-1051.ch013

Hansen, N., Li, W., Law, M. E., Kasper, T., Westmoreland, P. R., Yang, B., … Lucassen, A. (2010). The importance of fuel dissociation and propargyl + allyl association for the formation of benzene in a fuel-rich 1-hexene flame. Physical Chemistry Chemical Physics, 12(38), 12112. https://doi.org/10.1039/c0cp00241k

Westbrook, C. K., Pitz, W. J., Westmoreland, P. R., Dryer, F. L., Chaos, M., Osswald, P., … Kasper, T. (2009). A detailed chemical kinetic reaction mechanism for oxidation of four small alkyl esters in laminar premixed flames. PROCEEDINGS OF THE COMBUSTION INSTITUTE, 32(Pt.1), 221–228. https://doi.org/10.1016/j.proci.2008.06.106

Hansen, N., Miller, J. A., Kasper, T., Kohse-Hoeinghaus, K., Westmoreland, P. R., Wang, J., & Cool, T. A. (2009). Benzene formation in premixed fuel-rich 1,3-butadiene flames. PROCEEDINGS OF THE COMBUSTION INSTITUTE, 32(Pt.1), 623–630. https://doi.org/10.1016/j.proci.2008.06.050

Kasper, T., Oßwald, P., Struckmeier, U., Kohse-Höinghaus, K., Taatjes, C. A., Wang, J., … al. (2009). Combustion chemistry of the propanol isomers — investigated by electron ionization and VUV-photoionization molecular-beam mass spectrometry. Combustion and Flame, 156(6), 1181–1201. https://doi.org/10.1016/j.combustflame.2009.01.023

Wang, J., Chaos, M., Yang, B., Cool, T. A., Dryer, F. L., Kasper, T., … al. (2009). Composition of reaction intermediates for stoichiometric and fuel-rich dimethyl ether flames: flame-sampling mass spectrometry and modeling studies. Physical Chemistry Chemical Physics, 11(9), 1328. https://doi.org/10.1039/b815988b

Hansen, N., Miller, J. A., Westmoreland, P. R., Kasper, T., Kohse-Höinghaus, K., Wang, J., & Cool, T. A. (2009). Isomer-specific combustion chemistry in allene and propyne flames. Combustion and Flame, 156(11), 2153–2164. https://doi.org/10.1016/j.combustflame.2009.07.014

Lin, Y.-C., Cho, J., Tompsett, G. A., Westmoreland, P. R., & Huber, G. W. (2009). Kinetics and Mechanism of Cellulose Pyrolysis. The Journal of Physical Chemistry C, 113(46), 20097–20107. https://doi.org/10.1021/jp906702p

Huynh, L. K., Zhang, H. R., Zhang, S., Eddings, E., Sarofim, A., Law, M. E., … Truong, T. N. (2009). Kinetics of enol formation from reaction of OH with propene. Journal of Physical Chemistry. A, Molecules, Spectroscopy, Kinetics, Environment & General Theory, 113(13), 3177–3185. https://doi.org/10.1021/jp808050j

Westmoreland, P. R. (2009). Professor Jack Benny Howard (1937–2008), Massachusetts Institute of Technology. Combustion and Flame, 156(3), 547–548. https://doi.org/10.1016/j.combustflame.2008.12.006

Hansen, N., Cool, T. A., Westmoreland, P. R., & Kohse-Höinghaus, K. (2009). Recent contributions of flame-sampling molecular-beam mass spectrometry to a fundamental understanding of combustion chemistry. Progress in Energy and Combustion Science, 35(2), 168–191. https://doi.org/10.1016/j.pecs.2008.10.001

Lucassen, A., Osswald, P., Struckmeier, U., Kohse-Hoeinghaus, K., Kasper, T., Hansen, N., … Westmoreland, P. R. (2009). Species identification in a laminar premixed low-pressure flame of morpholine as a model substance for oxygenated nitrogen-containing fuels. PROCEEDINGS OF THE COMBUSTION INSTITUTE, 32(Pt.1), 1269–1276. https://doi.org/10.1016/j.proci.2008.06.053

Westmoreland, P. R. (2009). The prehistory of soot: Small rings from small molecules. In H. Bockhorn (Ed.), Combustion Generated Fine Carbonaceous Particles: Proceedings of an International Workshop (pp. 30–47). KIT Scientific Publishing.

Taatjes, C. A., Hansen, N., Osborn, D. L., Kohse-Hoeinghaus, K., Cool, T. A., & Westmoreland, P. R. (2008). [Review of "Imaging" combustion chemistry via multiplexed synchrotron-photoionization mass spectrometry]. PHYSICAL CHEMISTRY CHEMICAL PHYSICS, 10(1), 20–34. https://doi.org/10.1039/b713460f

Hansen, N., Klippenstein, S. J., Westmoreland, P. R., Kasper, T., Kohse-Höinghaus, K., Wang, J., & Cool, T. A. (2008). A combined ab initio and photoionization mass spectrometric study of polyynes in fuel-rich flames. Phys. Chem. Chem. Phys., 10(3), 366–374. https://doi.org/10.1039/b711578d

Westmoreland, P. R. (2008). Chemical engineering in the next 25 years. Chemical Engineering Progress , 104(11), 30–41.

Pandey, M. K., Chandekar, A., Tyagi, R., Parmar, V. S., Tucci, V. B., Smith, K. D., … Watterson, A. C. (2008). Design and lipase catalyzed synthesis of 4-methylcoumarin-siloxane hybrid copolymers. Journal of Macromolecular Science, Part A: Pure and Applied Chemistry, 45(11), 926–931.

Wang, J., Struckmeier, U., Yang, B., Cool, T. A., Osswald, P., Kohse-Höinghaus Katharina, … Westmoreland, P. R. (2008). Isomer-Specific Influences on the Composition of Reaction Intermediates in Dimethyl Ether/Propene and Ethanol/Propene Flame†. The Journal of Physical Chemistry A, 112(39), 9255–9265. https://doi.org/10.1021/jp8011188

Mosurkal, R., Samuelson, L. A., Smith, K. D., Westmoreland, P. R., Parmar, V. S., Yan, F., … Watterson, A. C. (2008). Nanocomposites of TiO2 and siloxane copolymers as environmentally safe flame-retardant materials. Journal of Macromolecular Science, Part A: Pure and Applied Chemistry, 45(11), 943–947.

Mosurkal, R., Samuelson, L. A., Smith, K. D., Westmoreland, P. R., Parmar, V. S., Yan, F., … Watterson, A. C. (2008). Nanocomposites of TiO2and Siloxane Copolymers as Environmentally Safe Flame-Retardant Materials†. Journal of Macromolecular Science, Part A, 45(11), 942–946. https://doi.org/10.1080/10601320802380208

Ranganathan, T., Beaulieu, M., Zilberman, J., Smith, K. D., Westmoreland, P. R., Farris, R. J., … Emrick, T. (2008). Thermal degradation of deoxybenzoin polymers studied by pyrolysis-gas chromatography/mass spectrometry. POLYMER DEGRADATION AND STABILITY, 93(6), 1059–1066. https://doi.org/10.1016/j.polymdegradstab.2008.03.021

Law, M. E., Westmoreland, P. R., Cool, T. A., Wang, J., Hansen, N., Taatjes, C. A., & Kasper, T. (2007). Benzene precursors and formation routes in a stoichiometric cyclohexane flame. Proceedings of the Combustion Institute, 31(1), 565–573. https://doi.org/10.1016/j.proci.2006.07.259

Hansen, N., Kasper, T., Klippenstein, S. J., Westmoreland, P. R., Law, M. E., Taatjes, C. A., … Cool, T. A. (2007). Initial Steps of Aromatic Ring Formation in a Laminar Premixed Fuel-Rich Cyclopentene Flame†. The Journal of Physical Chemistry A, 111(19), 4081–4092. https://doi.org/10.1021/jp0683317

Osswald, P., Struckmeier, U., Kasper, T., Kohse-Höinghaus, K., Wang, J., Cool, T. A., … Westmoreland, P. R. (2007). Isomer-Specific Fuel Destruction Pathways in Rich Flames of Methyl Acetate and Ethyl Formate and Consequences for the Combustion Chemistry of Esters†. The Journal of Physical Chemistry A, 111(19), 4093–4101. https://doi.org/10.1021/jp068337w

Hansen, N., Miller, J. A., Taatjes, C. A., Wang, J., Cool, T. A., Law, M. E., & Westmoreland, P. R. (2007). Photoionization mass spectrometric studies and modeling of fuel-rich allene and propyne flames. Proceedings of the Combustion Institute, 31(1), 1157–1164. https://doi.org/10.1016/j.proci.2006.07.045

Cool, T. A., Wang, J., Hansen, N., Westmoreland, P. R., Dryer, F. L., Zhao, Z., … Kohse-Höinghaus, K. (2007). Photoionization mass spectrometry and modeling studies of the chemistry of fuel-rich dimethyl ether flames. Proceedings of the Combustion Institute, 31(1), 285–293. https://doi.org/10.1016/j.proci.2006.08.044

Smith, K. D., Stoliarov, S. I., Nyden, M. R., & Westmoreland, P. R. (2007, April 15). RMDff: A smoothly transitioning, forcefield-based representation of kinetics for reactive molecular dynamics simulations. MOLECULAR SIMULATION, Vol. 33, pp. 361–368. https://doi.org/10.1080/08927020601156392

Kohse-Höinghaus, K., Oßwald, P., Struckmeier, U., Kasper, T., Hansen, N., Taatjes, C. A., … al. (2007). The influence of ethanol addition on premixed fuel-rich propene–oxygen–argon flames. Proceedings of the Combustion Institute, 31(1), 1119–1127. https://doi.org/10.1016/j.proci.2006.07.007

Westmoreland, P. R., Law, M. E., Cool, T. A., Wang, J., McIlroy, A., Taatjes, C. A., & Hansen, N. (2006). Analysis of flame structure by molecular-beam mass spectrometry using electron-impact and synchrotron-photon ionization. Combustion, Explosion, and Shock Waves, 42(6), 672–677. https://doi.org/10.1007/s10573-006-0100-0

Taatjes, C. A., Hansen, N., Miller, J. A., Cool, T. A., Wang, J., Westmoreland, P. R., … Kohse-Höinghaus, K. (2006). Combustion Chemistry of Enols:  Possible Ethenol Precursors in Flames†. The Journal of Physical Chemistry A, 110(9), 3254–3260. https://doi.org/10.1021/jp0547313

Hansen, N., Klippenstein, S. J., Taatjes, C. A., Miller, J. A., Wang, J., Cool, T. A., … Westmoreland, P. R. (2006). Identification and Chemistry of C4H3and C4H5Isomers in Fuel-Rich Flames. The Journal of Physical Chemistry A, 110(10), 3670–3678. https://doi.org/10.1021/jp056769l

Hansen, N., Klippenstein, S. J., Miller, J. A., Wang, J., Cool, T. A., Law, M. E., … Kohse-Höinghaus, K. (2006). Identification of C5HxIsomers in Fuel-Rich Flames by Photoionization Mass Spectrometry and Electronic Structure Calculations. The Journal of Physical Chemistry A, 110(13), 4376–4388. https://doi.org/10.1021/jp0569685

Stoliarov, S. I., Westmoreland, P., Zhang, H., Lyon, R. E., & Nyden, M. R. (2006). Molecular modeling of the thermal decomposition of polymers. ACS Symposium Series, 922(Fire and Polymer IV), 306–319. https://doi.org/10.1021/bk-2006-0922.ch024

Law, M. E., Gon, S., Westmoreland, P. R., Cool, T. A., Wang, J., Hansen, N., & Taatjes, C. A. (2005). 1,5-Hexadiyne and fulvene presence in premixed allene and propyne flames. Chemical and Physical Processes in Combustion, 4–7.

Law, M. E., Carriere, T., & Westmoreland, P. R. (2005). Allene addition to a fuel-lean ethylene flat flame. PROCEEDINGS OF THE COMBUSTION INSTITUTE, Vol. 30, pp. 1353–1361. https://doi.org/10.1016/j.proci.2004.08.239

Taatjes, C. A., Hansen, N., McIlroy, A., Miller, J. A., Senosiain, J. P., Klippenstein, S. J., … Kohse-Höinghaus, K. (2005). Enols Are Common Intermediates in Hydrocarbon Oxidation. Science, 308(5730), 1887–1889. https://doi.org/10.1126/science.1112532

Ruscic, B., Boggs, J. E., Burcat, A., Csaszar, A. G., Demaison, J., Janoschek, R., … Berces, T. (2005). [Review of IUPAC critical evaluation of thermochemical properties of selected radicals. Part I]. JOURNAL OF PHYSICAL AND CHEMICAL REFERENCE DATA, 34(2), 573–656. https://doi.org/10.1063/1.1724828

Gon, S., Law, M. E., Westmoreland, P. R., Cool, T. A., Wang, J., Hansen, N., … Obwald, P. (2005). Identification of species and separation of isomers in a premixed fuel-rich cyclohexane flame. Chemical and Physical Processes in Combustion, 221–224.

Law, M. E., Westmoreland, P. R., Cool, T. A., Wang, J., Hansen, N., Taatjes, C. A., & Kasper, T. (2005). Insights into a premixed stoichiometric cyclohexane flame. Chemical and Physical Processes in Combustion, 69–99.

Cool, T. A., McIlroy, A., Qi, F., Westmoreland, P. R., Poisson, L., Peterka, D. S., & Ahmed, M. (2005). Photoionization mass spectrometer for studies of flame chemistry with a synchrotron light source. REVIEW OF SCIENTIFIC INSTRUMENTS, 76(9). https://doi.org/10.1063/1.2010307

Westmoreland, P. R., Law, M. E., Gon, S., Cool, T. A., Wang, J., McIlroy, A., … Poisson, L. (2005). Recent advances in flame-sampling molecular-beam mass spectrometry. Chemical and Physical Processes in Combustion, 205–212.

Cool, T. A., Nakajima, K., Taatjes, C. A., McIlroy, A., Westmoreland, P. R., Law, M. E., & Morel, A. (2005). Studies of a fuel-rich propane flame with photoionization mass spectrometry. PROCEEDINGS OF THE COMBUSTION INSTITUTE, Vol. 30, pp. 1681–1688. https://doi.org/10.1016/j.proci.2004.08.103

Taatjes, C. A., Klippenstein, S. J., Hansen, N., Miller, J. A., Cool, T. A., Wang, J., … Westmoreland, P. R. (2005). Synchrotron photoionization measurements of combustion intermediates: Photoionization efficiency and identification of C3H2 isomers. PHYSICAL CHEMISTRY CHEMICAL PHYSICS, 7(5), 806–813. https://doi.org/10.1039/b417160h

Nyden, M. R., Stoliarov, S. I., Westmoreland, P. R., Guo, Z. X., & Jee, C. (2004, January 25). Applications of reactive molecular dynamics to the study of the thermal decomposition of polymers and nanoscale structures. MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING, Vol. 365, pp. 114–121. https://doi.org/10.1016/j.msea.2003.09.060

Kumar, R., Tyagi, R., Parmar, V. S., Samuelson, L. A., Kumar, J., Schoemann, A., … Watterson, A. C. (2004). Biocatalytic synthesis of highly flame retardant inorganic-organic hybrid polymers. ADVANCED MATERIALS, 16(17), 1515-+. https://doi.org/10.1002/adma.200400241

Stoliarov, S. I., Westmoreland, P. R., Nyden, M. R., & Forney, G. P. (2003). A reactive molecular dynamics model of thermal decomposition in polymers: 1. Poly(methyl methacrylate). POLYMER, 44(3), 883–894. https://doi.org/10.1016/s0032-3861(02)00761-9

Westmoreland, P. R., Zhang, H., Schoemann, A., Inguilizian, T., & Farris, R. J. (2003). Developing fire-safe polymers using milligram-scale test methods. Chemical and Physical Processes in Combustion, 53–56.

Malone, M. F., Westmoreland, P. R., & Doherty, M. F. (2003). In Honor of James M. Douglas. Industrial & Engineering Chemistry Research, 41(16), 3731–3734.

Zhang, H. Q., Farris, R. J., & Westmoreland, P. R. (2003). Low flammability and thermal decomposition behavior of poly(3,3 '-dihydroxybiphenylisophthalamide) and its derivatives. MACROMOLECULES, 36(11), 3944–3954. https://doi.org/10.1021/ma021764x

Stoliarov, S. I., & Westmoreland, P. R. (2003). Mechanism of the thermal decomposition of bisphenol C polycarbonate: nature of its fire resistance. POLYMER, 44(18), 5469–5475. https://doi.org/10.1016/s0032-3861(03)00576-7

Schoemann, A., Westmoreland, P. R., Farris, R. J., Kumar, R., Watterson, A. C., & Samuelson, L. (2003). New fire-safe polysiloxane polymers. Chemical and Physical Processes in Combustion, (49), 52.

Law, M. E., Morel, A., Westmoreland, P. R., Cool, T. A., & Taatjes, C. (2003). Selective detection of C3H4 and C6H6 isomers in flames. Chemical and Physical Processes in Combustion, 285–288.

Morel, A., Law, M. E., Westmoreland, P. R., Cool, T. A., Nakajima, K., Mostefaoui, T. A., … Peterka, D. S. (2003). Selective detection of isomers using a new photoionization MBMS apparatus. Chemical and Physical Processes in Combustion, 281–284.

Cool, T. A., Nakajima, K., Mostefaoui, T. A., Qi, F., McIlroy, A., Westmoreland, P., … al. (2003). Selective detection of isomers with photoionization mass spectrometry for studies of hydrocarbon flame chemistry. JOURNAL OF CHEMICAL PHYSICS, 119(16), 8356–8365. https://doi.org/10.1063/1.1611173

Westmoreland, P. R., Kollman, P. A., Chaka, A. M., Cummings, P. T., Morokuma, K., Neurock, M., … Vashishta, P. (2002). Applying Molecular and Materials Modeling: An International Comparative Study. Retrieved from http://www.wtec.org/loyola/molmodel/mm_final.pdf

Carriere, T., Westmoreland, P. R., Kazakov, A., Stein, Y. S., & Dryer, F. L. (2002). Modeling ethylene combustion from low to high pressure. Proceedings of the Combustion Institute, 29(1), 1257–1266. https://doi.org/10.1016/s1540-7489(02)80155-9

Plichta, A., Brzozowski, Z. K., Zhang, H., Coughlin, E. B., Westmoreland, P. R., & Farris, R. J. (2002). Synthesis of UV-sensitive and fire-resistant polyarylates. Polymer, 43(20), 5463–5472.

Zhang, H., Westmoreland, P. R., Farris, R. J., Coughlin, E. B., Plichta, A., & Brzozowski, Z. K. (2002). Thermal decomposition and flammability of fire-resistant, UV/visible-sensitive polyarylates, copolymers and blends. POLYMER, 43(20), 5463–5472. https://doi.org/10.1016/s0032-3861(02)00427-5

Westmoreland, P. R., & Heffelfinger, G. S. (Eds.). (2001). Applying Molecular Simulation and Computational Chemistry : an AIChE Topical Conference : Reno, Nevada, November 4-9, 2001. New York: American Institute of Chemical Engineers.

Westmoreland, P. R. (2001). Chemistry and life sciences in a new vision of chemical engineering. Chemical Engineering Education, 35(4), 248–255.

Westmoreland, P. R., Inguilizian, T., & Rotem, K. (2001). Flammability kinetics from TGA/DSC/GCMS, microcalorimetry and computational quantum chemistry. Thermochimica Acta, 367-368, 401–405. https://doi.org/10.1016/s0040-6031(00)00661-4

Cummings, P. T., Westmoreland, P. R., & Carnahan, B. (Eds.). (2001). Foundations of molecular modeling and simulation :
proceedings of the First International Conference on Molecular Modeling and Simulation, Keystone, Colorado, July 23-28, 2000. New York: American Institute of Chemical Engineers.

Law, M. E., Carriere, T., & Westmoreland, P. R. (2001). New insights into fuel-lean ethylene flames. Chemical and Physical Processes in Combustion, 194–197.

Westmoreland, P. R., & Rotem, K. (2001). Pericyclic chemistry in polymer thermal decomposition. In P. T. Cummings, P. R. Westmoreland, & B. Carnahan (Eds.), Foundations of molecular modeling and simulation : proceedings of the First International Conference on Molecular Modeling and Simulation, Keystone, Colorado, July 23-28, 2000 (pp. 127–130). New York: American Institute of Chemical Engineers.

Westmoreland, P. R. (2000, October). Does soot burn? Muse, 6.

Westmoreland, P. R., Bui, P.-A., Graff, I. B., & Vlachos, D. G. (1999). Experimental Gas-Phase Kinetics for Parallel-Plate PECVD. In M. D. Allendorf, M. R. Zachariah, T. J. Mountziaris, & A. H. McDaniel (Eds.), Proceedings of the Fundamental Gas-Phase and Surface Chemistry of Vapor-Phase Materials Synthesis (Vol. 98-23, pp. 167–178). Pennington, NJ: The Electrochemical Society.

Bui, P., Vlachos, D., & Westmoreland, P. (1999). On the local stability of multiple solutions and oscillatory dynamics of spatially distributed flames. Combustion and Flame, 117(1-2), 307–322. https://doi.org/10.1016/S0010-2180(98)00097-2

Cox, K. A., Cummings, P. T., & Westmoreland, P. R. (Eds.). (1998). Applying Molecular Modeling and Computational Chemistry. In AIChE. New York, NY: American Institute of Chemical Engineers.

Linteris, G. T., Burgess, D. R., Babushok, V., Zachariah, M., Tsang, W., & Westmoreland, P. (1998). Inhibition of premixed methane-air flames by fluoroethanes and fluoropropanes. COMBUSTION AND FLAME, 113(1-2), 164–180. https://doi.org/10.1016/s0010-2180(97)00216-2

Bhargava, A., & Westmoreland, P. R. (1998). MBMS Analysis of a Fuel-Lean Ethylene Flame. Combustion and Flame, 115(4), 456–467. https://doi.org/10.1016/s0010-2180(98)00018-2

Bhargava, A., & Westmoreland, P. R. (1998). Measured flame structure and kinetics in a fuel-rich ethylene flame. COMBUSTION AND FLAME, 113(3), 333–347. https://doi.org/10.1016/s0010-2180(97)00208-3

Bhargava, A., & Westmoreland, P. R. (1997). C2H4 + H and C2H4 + OH chemistry measured in laminar, premixed flat flames. Chemical and Physical Processes in Combustion, 201–204.

Bui, P. A., Vlachos, D. G., & Westmoreland, P. R. (1997). Catalytic ignition of methane/oxygen mixtures over platinum surfaces: comparison of detailed simulations and experiments. SURFACE SCIENCE, 385(2-3), L1029–L1034. https://doi.org/10.1016/s0039-6028(97)00438-x

Bui, P. A., Wilder, E. A., Vlachos, D. G., & Westmoreland, P. R. (1997). Hierarchical reduced models for catalytic combustion: H-2/air mixtures near platinum surfaces. COMBUSTION SCIENCE AND TECHNOLOGY, 129(1-6), 243–275. https://doi.org/10.1080/00102209708935728

Westmoreland, P. R. (1997). Key Acetaldehyde and C2H3O Kinetics by Ab Initio Calculations. In J. Warnatz & F. Behrendt (Eds.), Modelling of Chemical Reaction Systems (pp. 35–31 to 35–38). Interdisziplinäres Zentrum für Wissenschaftliches Rechnen,  Ruprecht-Karls-Universität Heidelberg.

Burgess, D. R. F., Jr., Zachariah, M. R., Tsang, W., & Westmoreland, P. R. (1997). Key Species and Important Reactions in Fluorinated Hydrocarbon Flame Chemistry. In ACS Symposium Series (pp. 322–340). https://doi.org/10.1021/bk-1995-0611.ch025

Bui, P. A., Vlachos, D. G., & Westmoreland, P. R. (1997). Modeling ignition of catalytic reactors with detailed surface kinetics and transport: Oxidation of H-2/air mixtures over platinum surfaces. INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH, 36(7), 2558–2567. https://doi.org/10.1021/ie960577i

Bui, P.-A., Vlachos, D. G., & Westmoreland, P. R. (1997). Self-sustained oscillations in distributed flames modeled with detailed chemistry. Chemical and Physical Processes in Combustion, 337–340.

Zachariah, M. R., Westmoreland, P. R., Burgess, D. R. F., Jr., Tsang, W., & Melius, C. F. (1997). Theoretical Prediction of Thermochemical and Kinetic Properties of Fluorocarbons. In ACS Symposium Series (pp. 358–373). https://doi.org/10.1021/bk-1995-0611.ch027

Zachariah, M. R., Westmoreland, P., Burgess, D. R. F., Tsang, W., & Melius, C. F. (1996). BAC-MP4 predictions of thermochemical data for C-1 and C-2 stable and radical hydrofluorocarbons and oxidized hydrofluorocarbons. JOURNAL OF PHYSICAL CHEMISTRY, 100(21), 8737–8747. https://doi.org/10.1021/jp952467f

Bui, P.-A., Vlachos, D. G., & Westmoreland, P. R. (1996). Homogeneous ignition of hydrogen-air mixtures over platinum. Symposium (International) on Combustion, 26(1), 1763–1770. https://doi.org/10.1016/s0082-0784(96)80402-4

Oulundsen, G. E., & Westmoreland, P. R. (1996). Initial measurements from reacting flows of hydrocarbons with chlorine. Chemical and Physical Processes in Combustion, 345–348.

Bhargava, A., & Westmoreland, P. R. (1996). MBMS analysis of a fuel-lean ethylene flame. Chemical and Physical Processes in Combustion, 421–424.

Thomas, S. D., Bhargava, A., Westmoreland, P. R., Lindstedt, R. P., & Skevis, G. (1996). Propene Oxidation Chemistry in Laminar Premixed Flames. Bulletin Des Sociétés Chimiques Belges, 105(9), 501–512.

C1 Fluoro- and hydrofluorocarbon effects on the extinction characteristics of methane vs. air counterflow diffusion flames. (1995). Chemical and Physical Processes in Combustion, 447–450.

Westmoreland, P. R., & Cox, K. R. (1995). Computational Chemistry and Its Industrial Applications. I&EC Research, 12, 4149.

Bui, P. A., Vlachos, D. G., & Westmoreland, P. R. (1995). Inhibition of homogeneous ignition by a catalytic surface. Chemical and Physical Processes in Combustion, 14–150.

WESTMORELAND, P. R., & COX, K. R. (1995, December). SYMPOSIUM ON COMPUTATIONAL CHEMISTRY AND ITS INDUSTRIAL APPLICATIONS. INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH, Vol. 34, pp. 4149–4149. https://doi.org/10.1021/ie00039a600

ZACHARIAH, M. R., TSANG, W., WESTMORELAND, P. R., & BURGESS, D. R. F. (1995). THEORETICAL PREDICTION OF THE THERMOCHEMISTRY AND KINETICS OF REACTIONS OF CF2O WITH HYDROGEN-ATOM AND WATER. JOURNAL OF PHYSICAL CHEMISTRY, 99(33), 12512–12519. https://doi.org/10.1021/j100033a023

Burgess, D. R., Zachariah, M. R., Tsang, W., & Westmoreland, P. R. (1995). [Review of Thermochemical and chemical kinetic data for fluorinated hydrocarbons]. PROGRESS IN ENERGY AND COMBUSTION SCIENCE, 21(6), 453–529. https://doi.org/10.1016/0360-1285(95)00009-7

Burgess, D. R. F., Jr., Zachariah, M. R., Tsang, W., & Westmoreland, P. R. (1995). Thermochemical and chemical kinetic data for fluorinated hydrocarbons (Technical Note No. 1412). https://doi.org/10.6028/nist.tn.1412

Peterson, J. W., & Westmoreland, P. R. (1995). Time-dependent solutions of the master equation for chemically activated reactions. Chemical and Physical Processes in Combustion, 107–110.

Westmoreland, P. R. (1994). [Review of Book Review of "Gas cleaning for advanced coal-based power generation", by K. V. Thambimuthu]. Energy and Fuels, 8, 1528.

Graff, I. B., Pugliese, R. A., Jr., & Westmoreland, P. R. (1994). Concentrations in PECVD of Diamondlike Carbon Using Molecular-Beam Mass Spectrometry. In T. J. Mountziaris, P. R. Westmoreland, G. Paz-Pujalt, & F. T. J. Smith (Eds.), Gas-Phase and Surface Chemistry in Electronic Materials Processing (Vol. 334, pp. 129–134). Pittsburgh: Materials Research Society.

Nyden, M. R., Linteris, G. T., Burgess, D. R. F., Jr., Westmoreland, P. R., Tsang, W., & Zachariah, M. R. (1994). Flame Inhibition Chemistry and the Search for Additional Fire Fighting Chemicals. In W. L. Grosshandler, R. G. Gann, & W. M. Pitts (Eds.), Evaluation of Alternative In-Flight Fire Suppressants for Full-Scale Testing in Simulated Aircraft Engine Nacelles and Dry Bays (pp. 467–641). Gaithersburg, MD: National Institute of Standards and Technology.

Westmoreland, P. R., Burgess, D. R. F., Jr., Zachariah, M. R., & Tsang, W. (1994). Fluoromethane chemistry and its role in flame suppression. Symposium (International) on Combustion, 25(1), 1505–1511. https://doi.org/10.1016/s0082-0784(06)80795-2

Mountziaris, T. J., Paz-Pujalt, G., Smith, F. T. J., & Westmoreland, P. R. (Eds.). (1994). Gas-Phase and Surface Chemistry in Electronic Materials Processing. Pittsburgh: Materials Research Society.

Tsang, W., Zachariah, M. R., & Westmoreland, P. R. (1994). Industrial Applications of Computational Chemistry (Workshop Report No. NISTIR-5450). Gaithersburg MD: National Institute of Standards and Technology.

Westmoreland, P. R., & Hennessey, D. J. (1994). On the kinetics of vinyl + O2. Chemical and Physical Processes in Combustion, 425–428.

Westmoreland, P. (1994). Reduced Kinetic Mechanisms for applications in combustion systems by N. Peters and B. Rogg. AIChE Journal, 40(11), 1926–1927. https://doi.org/10.1002/aic.690401122

Westmoreland, P. R. (1993). Elements of Chemical Reaction Engineering. Chemical Engineering Education, 27, 161, 166–167.

Michaud, M. G., Westmoreland, P. R., & Feitelberg, A. S. (1992). Chemical mechanisms of NOx formation for gas turbine conditions. Symposium (International) on Combustion, 24(1), 879–887. https://doi.org/10.1016/s0082-0784(06)80105-0

Westmoreland, P., Senkan, S., Sarofim, A. F., & Semerjian, H. R. (Eds.). (1992). Special Issue: Combustion and Incineration in Chemical Engineering. In Combustion Science and Technology (Vol. 82).

WESTMORELAND, P. R. (1992). THERMOCHEMISTRY AND KINETICS OF C2H3+O2 REACTIONS. COMBUSTION SCIENCE AND TECHNOLOGY, Vol. 82, pp. 151–168. https://doi.org/10.1080/00102209208951817

Communal, F., & Westmoreland, P. R. (1990). Predicted kinetics for silylene + oxygen: association with multiple isomerization. Chemical and Physical Processes in Combustion, 98/1–98/4.

WESTMORELAND, P. R., DEAN, A. M., HOWARD, J. B., & LONGWELL, J. P. (1989). FORMING BENZENE IN FLAMES BY CHEMICALLY ACTIVATED ISOMERIZATION. JOURNAL OF PHYSICAL CHEMISTRY, 93(25), 8171–8180. https://doi.org/10.1021/j100362a008

Westmoreland, P. R. (1989). On the kinetics and thermodynamics of C4H5 isomers. Chemical and Physical Processes in Combustion, 15/1–15/4.

Thomas, S. D., & Westmoreland, P. R. (1989). Testing predictions of C2-4 species in a fuel-rich acetylene flame. Chemical and Physical Processes in Combustion, 13/1–13/4.

GARO, A., WESTMORELAND, P. R., HOWARD, J. B., & LONGWELL, J. P. (1988). ANALYSIS OF FUEL-LEAN COMBUSTION USING CHEMICAL MECHANISMS. COMBUSTION AND FLAME, 72(3), 271–286. https://doi.org/10.1016/0010-2180(88)90127-7

Garo, A., Westmoreland, P. R., Howard, J. B., & Longwell, J. P. (1988). Tests of Published Mechanisms by Comparison with Measured Laminar Flame Structure in Fuel-Lean Acetylene Combustion. Combustion and Flame, 72, 271–286.

Westmoreland, P. R., Howard, J. B., & Longwell, J. P. (1988). Tests of published mechanisms by comparison with measured laminar flame structure in fuel-rich acetylene combustion. Symposium (International) on Combustion, 21(1), 773–782. https://doi.org/10.1016/s0082-0784(88)80309-6

Westmoreland, P. R. (1988). The importance of obvious and disguised association reactions in combustion. Chemical and Physical Processes in Combustion, 17/1–17/4.

Dean, A. M., & Westmoreland, P. (1987). Bimolecular QRRK analysis of methyl radical reactions. International Journal of Chemical Kinetics, 19(3), 207–228. https://doi.org/10.1002/kin.550190305

Westmoreland, P., Howard, J. B., Longwell, J. P., & Dean, A. M. (1986). Prediction of rate constants for combustion and pyrolysis reactions by bimolecular QRRK. AIChE Journal, 32(12), 1971–1979. https://doi.org/10.1002/aic.690321206

Prado, G., & Westmoreland, P. R. (1981). Formation of Polycyclic Aromatic Hydrocarbons in Premixed Flames. Chemical Analysis and Mutagenicity. In M. Cooke & A. J. Dennis (Eds.), Analytical Chemistry and Biological Fate. Columbus (Ohio): Battelle Memorial Institute.

Youngblood, E. L., Cochran, H. D., Jr, Westmoreland, P. R., Brown, C. H., & Oswald, G. E. (1981). Hydrocarbonization Research: Completion Report (Technical Report No. ORNL/TM-6693). https://doi.org/10.2172/6824032

Westmoreland, P. R., Forrester, R. C., III, & Gibson, J. B. (1981). Pyrolysis and Physical Properties of Coal Blocks (No. ORNL/TM-7313). Oak Ridge (TN) National Laboratory.

Youngblood, E. L., Cochran, H. D., Westmoreland, P. R., Brown, C. H., Oswald, G. E., & Miller, C. T. (1980). Hydrocarbonization of Coal in a Fluidized Bed. Industrial & Engineering Chemistry Product Research and Development, 19(1), 29–34. https://doi.org/10.1021/i360073a008

Westmoreland, P. R., & Dickerson, L. S. (1980). Pyrolysis of Blocks of Lignite. In Situ, 4(4), 325–343.

Forrester, R. C., III, & Westmoreland, P. R. (1979). Two-Dimensional Pyrolysis Effects During In-Situ Coal Gasification: Preliminary Results. Journal of Petroleum Technology, 31(05), 571–573. https://doi.org/10.2118/6150-pa

Westmoreland, P. R., Forrester, R. C., & Sikri, A. P. (1978). In Situ Gasification: Recovery of Otherwise Inaccessible Coal Reserves. In E. Michaelides, Alternative Energy Sources (Vol. 7, p. 3113). Washington: Hemisphere Publishing Corporation.

Rodgers, B. R., & Westmoreland, P. R. (1978). Removing Micron-Sized Particles from Coal Liquids. In Coal Processing Technology (Vol. 3, pp. 28–36). New York: AIChE.

Westmoreland, P. R., Gibson, J. B., & Harrison, D. P. (1977). Comparative kinetics of high-temperature reaction between hydrogen sulfide and selected metal oxides. Environmental Science & Technology, 11(5), 488–491. https://doi.org/10.1021/es60128a007

Rodgers, B. R., Katz, S., & Westmoreland, P. R. (1977). Supporting Research and Development on Separations Technology (Technical Report No. ORNL/TM-5843). https://doi.org/10.2172/5390145

Westmoreland, P. R., & Harrison, D. P. (1976). Evaluation of candidate solids for high-temperature desulfurization of low-Btu gases. Environmental Science & Technology, 10(7), 659–661. https://doi.org/10.1021/es60118a010