Michael Frenklach
Michael Frenklach
Verified email at berkeley.edu
Title
Cited by
Cited by
Year
GRI-Mech
GP Smith, DM Golden, M Frenklach, NW Moriarty, B Eiteneer, ...
URL: http://www. me. berkeley. edu/gri_mech, 1999
2916*1999
Reaction mechanism of soot formation in flames
M Frenklach
Physical chemistry chemical Physics 4 (11), 2028-2037, 2002
15102002
A detailed kinetic modeling study of aromatics formation in laminar premixed acetylene and ethylene flames
H Wang, M Frenklach
Combustion and flame 110 (1-2), 173-221, 1997
14661997
Kinetic modeling of soot formation with detailed chemistry and physics: laminar premixed flames of C2 hydrocarbons
J Appel, H Bockhorn, M Frenklach
Combustion and flame 121 (1-2), 122-136, 2000
13192000
Detailed modeling of soot particle nucleation and growth
M Frenklach, H Wang
Symposium (International) on Combustion 23 (1), 1559-1566, 1991
11871991
Diamond—ceramic coating of the future
KE Spear
Journal of the American Ceramic Society 72 (2), 171-191, 1989
9101989
Substrate-free gas-phase synthesis of graphene sheets
A Dato, V Radmilovic, Z Lee, J Phillips, M Frenklach
Nano letters 8 (7), 2012-2016, 2008
811*2008
Detailed kinetic modeling of soot formation in shock-tube pyrolysis of acetylene
M Frenklach, DW Clary, WC Gardiner Jr, SE Stein
Symposium (International) on Combustion 20 (1), 887-901, 1985
7441985
Synthetic diamond: emerging CVD science and technology
KE Spear, JP Dismukes
John Wiley & Sons, 1994
6711994
Detailed modeling of PAH profiles in a sooting low-pressure acetylene flame
M Frenklach, J Warnatz
Combustion science and technology 51 (4-6), 265-283, 1987
5601987
Detailed mechanism and modeling of soot particle formation
M Frenklach, H Wang
Soot formation in combustion, 165-192, 1994
5551994
Detailed surface and gas-phase chemical kinetics of diamond deposition
M Frenklach, H Wang
Physical review B 43 (2), 1520, 1991
5541991
Growth mechanism of vapor-deposited diamond
M Frenklach, KE Spear
Journal of Materials Research 3 (1), 133-140, 1988
5481988
Aerosol dynamics modeling using the method of moments
M Frenklach, SJ Harris
Journal of colloid and interface science 118 (1), 252-261, 1987
5281987
Optimization and analysis of large chemical kinetic mechanisms using the solution mapping method—combustion of methane
M Frenklach, H Wang, MJ Rabinowitz
Progress in Energy and Combustion Science 18 (1), 47-73, 1992
5021992
Formation of polycyclic aromatic hydrocarbons in circumstellar envelopes
M Frenklach, ED Feigelson
The Astrophysical Journal 341, 372-384, 1989
4961989
Method of moments with interpolative closure
M Frenklach
Chemical Engineering Science 57 (12), 2229-2239, 2002
4442002
Calculations of rate coefficients for the chemically activated reactions of acetylene with vinylic and aromatic radicals
H Wang, M Frenklach
The Journal of Physical Chemistry 98 (44), 11465-11489, 1994
3771994
Detailed modeling of soot formation in laminar premixed ethylene flames at a pressure of 10 bar
A Kazakov, H Wang, M Frenklach
Combustion and Flame 100 (1-2), 111-120, 1995
3421995
Dynamic modeling of soot particle coagulation and aggregation: Implementation with the method of moments and application to high-pressure laminar premixed flames
A Kazakov, M Frenklach
Combustion and flame 114 (3-4), 484-501, 1998
3301998
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