Zachary J. (Buras) Alberti
Zachary J. (Buras) Alberti
Process Engineer, Intel
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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
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
Modeling of aromatics formation in fuel-rich methane oxy-combustion with an automatically generated pressure-dependent mechanism
TC Chu, ZJ Buras, P O▀wald, M Liu, MJ Goldman, WH Green
Physical Chemistry Chemical Physics 21 (2), 813-832, 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
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
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
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
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
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
Simulated production of OH, HO2, CH2O, and CO2 during dilute fuel oxidation can predict 1st-stage ignition delays
ZJ Buras, C Safta, J Zßdor, L Sheps
Combustion and Flame 216, 472-484, 2020
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
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
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
A combined photoionization time-of-flight mass spectrometry and laser absorption spectrometry flash photolysis apparatus for simultaneous determination of reaction rates andá…
JE Middaugh, ZJ Buras, M Matrat, TC Chu, YS Kim, IM Alecu, ...
Review of Scientific Instruments 89 (7), 2018
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
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
Automated Reaction Kinetics and Network Exploration (Arkane): A Statistical Mechanics, Thermodynamics, Transition State Theory, and Master Equation Software
AG Dana, M Johnson, J Allen, S Sharma, S Raman, M Liu, C Gao, ...
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
Measuring rate constants and product branching for reactions relevant to combustion and atmospheric chemistry
ZJ Buras
Massachusetts Institute of Technology, 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
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