C. Franklin Goldsmith
C. Franklin Goldsmith
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Zitiert von
Zitiert von
Role of O2 + QOOH in Low-Temperature Ignition of Propane. 1. Temperature and Pressure Dependent Rate Coefficients
CF Goldsmith, WH Green, SJ Klippenstein
The Journal of Physical Chemistry A 116 (13), 3325-3346, 2012
Database of small molecule thermochemistry for combustion
CF Goldsmith, GR Magoon, WH Green
The Journal of Physical Chemistry A 116 (36), 9033-9057, 2012
Reaction mechanism generator v3. 0: advances in automatic mechanism generation
M Liu, A Grinberg Dana, MS Johnson, MJ Goldman, A Jocher, AM Payne, ...
Journal of Chemical Information and Modeling 61 (6), 2686-2696, 2021
Experimental and kinetic modeling study of C2H4 oxidation at high pressure
JG Lopez, CL Rasmussen, MU Alzueta, Y Gao, P Marshall, P Glarborg
Proceedings of the Combustion Institute 32 (1), 367-375, 2009
Understanding low-temperature first-stage ignition delay: Propane
SS Merchant, CF Goldsmith, AG Vandeputte, MP Burke, SJ Klippenstein, ...
Combustion and Flame 162 (10), 3658-3673, 2015
Combustion chemistry in the twenty-first century: Developing theory-informed chemical kinetics models
JA Miller, R Sivaramakrishnan, Y Tao, CF Goldsmith, MP Burke, ...
Progress in Energy and Combustion Science 83, 100886, 2021
Automatic estimation of pressure-dependent rate coefficients
JW Allen, CF Goldsmith, WH Green
Physical Chemistry Chemical Physics 14 (3), 1131-1155, 2012
Catalytic partial oxidation of methane on platinum investigated by spatial reactor profiles, spatially resolved spectroscopy, and microkinetic modeling
O Korup, CF Goldsmith, G Weinberg, M Geske, T Kandemir, R Schlögl, ...
Journal of catalysis 297, 1-16, 2013
Automatic generation of microkinetic mechanisms for heterogeneous catalysis
CF Goldsmith, RH West
The Journal of Physical Chemistry C 121 (18), 9970-9981, 2017
Temperature and pressure-dependent rate coefficients for the reaction of vinyl radical with molecular oxygen
CF Goldsmith, LB Harding, Y Georgievskii, JA Miller, SJ Klippenstein
The Journal of Physical Chemistry A 119 (28), 7766-7779, 2015
Detailed Kinetic Modeling of Iron Nanoparticle Synthesis from the Decomposition of Fe(CO)5
JZ Wen, CF Goldsmith, RW Ashcraft, WH Green
The Journal of Physical Chemistry C 111 (15), 5677-5688, 2007
Theoretical rate coefficients for allyl+ HO2 and allyloxy decomposition
CF Goldsmith, SJ Klippenstein, WH Green
Proceedings of the Combustion Institute 33 (1), 273-282, 2011
Weakly bound free radicals in combustion:“Prompt” dissociation of formyl radicals and its effect on laminar flame speeds
NJ Labbe, R Sivaramakrishnan, CF Goldsmith, Y Georgievskii, JA Miller, ...
The journal of physical chemistry letters 7 (1), 85-89, 2016
Rate coefficients for fuel+ NO2: Predictive kinetics for HONO and HNO2 formation
J Chai, CF Goldsmith
Proceedings of the Combustion Institute 36 (1), 617-626, 2017
Measurement and analysis of spatial reactor profiles in high temperature catalysis research
O Korup, S Mavlyankariev, M Geske, CF Goldsmith, R Horn
Chemical Engineering and Processing: Process Intensification 50 (10), 998-1009, 2011
A detailed kinetic model for combustion synthesis of titania from TiCl4
RH West, RA Shirley, M Kraft, CF Goldsmith, WH Green
Combustion and Flame 156 (9), 1764-1770, 2009
Uncertainty propagation in the derivation of phenomenological rate coefficients from theory: a case study of n-propyl radical oxidation
CF Goldsmith, AS Tomlin, SJ Klippenstein
Proceedings of the Combustion Institute 34 (1), 177-185, 2013
Effect of non-thermal product energy distributions on ketohydroperoxide decomposition kinetics
CF Goldsmith, MP Burke, Y Georgievskii, SJ Klippenstein
Proceedings of the Combustion Institute 35 (1), 283-290, 2015
Decomposition kinetics for HONO and HNO 2
X Chen, ME Fuller, CF Goldsmith
Reaction Chemistry & Engineering 4 (2), 323-333, 2019
Towards a quantitative understanding of the role of non-Boltzmann reactant distributions in low temperature oxidation
MP Burke, CF Goldsmith, Y Georgievskii, SJ Klippenstein
Proceedings of the Combustion Institute 35 (1), 205-213, 2015
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