| 1 |
How to predict thermal stress in hyperextended margins: Application of a new lithospheric model on the Iberia margin
Callies M, Filleaudeau PY, Dubille M, Lorant F
AAPG Bulletin, 102(4), 563, 2018 |
| 2 |
Evaluation of hydrocarbon potential of the Paleozoic (Cambrian-Devonian) source rocks of the Gaspe Peninsula, Quebec, Canada: Geochemical characterization, expulsion efficiency, and erosion scenario
Grundman G, Behar F, Malo M, Baudin F, Lorant F
AAPG Bulletin, 96(4), 729, 2012 |
| 3 |
Density functional theory investigation of competitive free-radical processes during the thermal cracking of methylated polyaromatics: Estimation of kinetic parameters
Leininger JP, Minot C, Lorant F, Behar F
Journal of Physical Chemistry A, 111(16), 3082, 2007 |
| 4 |
Mechanisms of 1-methylnaphthalene pyrolysis in a batch reactor
Leininger JP, Lorant F, Minot C, Behar F
Energy & Fuels, 20(6), 2518, 2006 |
| 5 |
Reaction kinetics of a selected number of elementary processes involved in the thermal decomposition of 9-methylphenanthrene using density functional theory
de Bruin TJM, Lorant F, Toulhoat H, Goddard WA
Journal of Physical Chemistry A, 108(46), 10302, 2004 |
| 6 |
Late generation of methane from mature kerogens
Lorant F, Behar F
Energy & Fuels, 16(2), 412, 2002 |
| 7 |
Thermal stability of alkylaromatics in natural systems: Kinetics of thermal decomposition of dodecylbenzene
Behar F, Lorant F, Budzinski H, Desavis E
Energy & Fuels, 16(4), 831, 2002 |
| 8 |
Ab initio investigation of ethane dissociation using generalized transition state theory
Lorant F, Behar F, Goddard WA, Tang YC
Journal of Physical Chemistry A, 105(33), 7896, 2001 |
| 9 |
ReaxFF: A reactive force field for hydrocarbons
van Duin ACT, Dasgupta S, Lorant F, Goddard WA
Journal of Physical Chemistry A, 105(41), 9396, 2001 |
| 10 |
Methane generation from methylated aromatics: Kinetic study and carbon isotope modeling
Lorant F, Behar F, Vandenbroucke M, McKinney DE, Tang YC
Energy & Fuels, 14(6), 1143, 2000 |
