| Direct Kinetic Measurements of Reactions between the Simplest Criegee Intermediate CH2OO and Alkenes ZJ Buras, RMI Elsamra, A Jalan, JE Middaugh, WH Green The Journal of Physical Chemistry A 118 (11), 1997-2006, 2014 | 100 | 2014 |
| Direct Determination of the Simplest Criegee Intermediate (CH2OO) Self Reaction Rate ZJ Buras, RMI Elsamra, WH Green The journal of physical chemistry letters 5 (13), 2224-2228, 2014 | 86 | 2014 |
| Direct kinetic and atmospheric modeling studies of Criegee intermediate reactions with acetone R Chhantyal-Pun, MAH Khan, R Martin, N Zachhuber, ZJ Buras, ... ACS Earth and Space Chemistry 3 (10), 2363-2371, 2019 | 43 | 2019 |
| Temperature‐ and Pressure‐Dependent Kinetics of CH2OO + CH3COCH3 and CH2OO + CH3CHO: Direct Measurements and Theoretical Analysis RMI Elsamra, A Jalan, ZJ Buras, JE Middaugh, WH Green International Journal of Chemical Kinetics 48 (8), 474-488, 2016 | 43 | 2016 |
| Modeling of aromatics formation in fuel-rich methane oxy-combustion with an automatically generated pressure-dependent mechanism TC Chu, ZJ Buras, P Oßwald, M Liu, MJ Goldman, WH Green Physical Chemistry Chemical Physics 21 (2), 813-832, 2019 | 42 | 2019 |
| An extended group additivity method for polycyclic thermochemistry estimation K Han, A Jamal, CA Grambow, ZJ Buras, WH Green International Journal of Chemical Kinetics 50 (4), 294-303, 2018 | 38 | 2018 |
| Automated reaction kinetics and network exploration (Arkane): A statistical mechanics, thermodynamics, transition state theory, and master equation software AG Dana, MS Johnson, JW Allen, S Sharma, S Raman, M Liu, CW Gao, ... International Journal of Chemical Kinetics 55 (6), 300-323, 2023 | 28 | 2023 |
| From benzene to naphthalene: direct measurement of reactions and intermediates of phenyl radicals and acetylene TC Chu, ZJ Buras, MC Smith, AB Uwagwu, WH Green Physical Chemistry Chemical Physics 21 (40), 22248-22258, 2019 | 26 | 2019 |
| Kinetics and products of vinyl+ 1, 3-butadiene, a potential route to benzene ZJ Buras, EE Dames, SS Merchant, G Liu, RMI Elsamra, WH Green The Journal of Physical Chemistry A 119 (28), 7325-7338, 2015 | 26 | 2015 |
| Simulated production of OH, HO2, CH2O, and CO2 during dilute fuel oxidation can predict 1st-stage ignition delays ZJ Buras, C Safta, J Zádor, L Sheps Combustion and Flame 216, 472-484, 2020 | 21 | 2020 |
| Phenyl radical+ propene: a prototypical reaction surface for aromatic-catalyzed 1, 2-hydrogen-migration and subsequent resonance-stabilized radical formation ZJ Buras, TC Chu, A Jamal, NW Yee, JE Middaugh, WH Green Physical Chemistry Chemical Physics 20 (19), 13191-13214, 2018 | 20 | 2018 |
| Modeling study of high temperature pyrolysis of natural gas S Gudiyella, ZJ Buras, TC Chu, I Lengyel, S Pannala, WH Green Industrial & Engineering Chemistry Research 57 (22), 7404-7420, 2018 | 19 | 2018 |
| Partial Hydrogenation of C2H2 on Ag-Doped Pt Nanoparticles LC Jones, Z Buras, MJ Gordon The Journal of Physical Chemistry C 116 (23), 12982-12988, 2012 | 18 | 2012 |
| A combined photoionization time-of-flight mass spectrometry and laser absorption spectrometry flash photolysis apparatus for simultaneous determination of reaction rates and … JE Middaugh, ZJ Buras, M Matrat, TC Chu, YS Kim, IM Alecu, ... Review of Scientific Instruments 89 (7), 2018 | 13 | 2018 |
| Direct kinetics and product measurement of phenyl radical+ ethylene TC Chu, ZJ Buras, B Eyob, MC Smith, M Liu, WH Green The Journal of Physical Chemistry A 124 (12), 2352-2365, 2020 | 11 | 2020 |
| Direct measurement of radical-catalyzed C6H6 formation from acetylene and validation of theoretical rate coefficients for C2H3+ C2H2 and C4H5+ C2H2 reactions MC Smith, G Liu, ZJ Buras, TC Chu, J Yang, WH Green The Journal of Physical Chemistry A 124 (14), 2871-2884, 2020 | 10 | 2020 |
| Prospects and Limitations of Predicting Fuel Ignition Properties from Low-Temperature Speciation Data Z Buras, N Hansen, CA Taatjes, L Sheps Energy & Fuels 36 (6), 3229-3238, 2022 | 1 | 2022 |
| Measuring rate constants and product branching for reactions relevant to combustion and atmospheric chemistry ZJ Buras Massachusetts Institute of Technology, 2018 | 1 | 2018 |
| Rapid Assessment of Autoignition Propensity in Novel Fuels and Blends L Sheps, Z Buras, K Au, J Zador, C Safta Sandia National Lab.(SNL-CA), Livermore, CA (United States), 2020 | | 2020 |
| Correlating Ignition Properties with Critical Species Concentrations. Z Buras, NNMN Hansen, D Lopez Pintor, L Sheps, CA Taatjes Sandia National Lab.(SNL-CA), Livermore, CA (United States), 2020 | | 2020 |
William H. GreenHoyt C. Hottel Professor of Chemical Engineering, MIT在 mit.edu 的电子邮件经过验证
