about
Methane dissociation on Pt(111): Searching for a specific reaction parameter density functional.Quantum dynamics of hydrogen atoms on graphene. I. System-bath modeling.Thermal lattice expansion effect on reactive scattering of H2 from Cu(111) at T(s) = 925 K.Full quantum dynamical investigation of the Eley-Rideal reaction forming H2 on a movable graphitic substrate at T = 0 K.Quantum dynamics of hydrogen atoms on graphene. II. Sticking.Computation of the S ← S Vibronic Absorption Spectrum of Formaldehyde by Variational Gaussian Wavepacket and Semiclassical IVR MethodsA few simple rules governing hydrogenation of graphene dotsHydrogen dissociation on Cu(111): the influence of lattice motion. Part IQuantum dynamics of the Eley-Rideal hydrogen formation reaction on graphite at typical interstellar cloud conditionsSurface models and reaction barrier in Eley-Rideal formation of H2 on graphitic surfacesCompact MCTDH wave functions for high-dimensional system-bath quantum dynamicsQuantum dynamical investigation of the isotope effect in H2 formation on graphite at cold collision energiesAdiabatic potential energy surfaces for the low-energy collisional dynamics of C(+)((2)P) ions with H2 moleculesNote: Caldeira-Leggett model describes dynamics of hydrogen atoms on grapheneSticking of atomic hydrogen on grapheneHydrogen on silicene: like or unlike graphene?Multi-configurational Ehrenfest simulations of ultrafast nonadiabatic dynamics in a charge-transfer complexFirst-principles description of intra-chain exciton migration in an oligo(para-phenylene vinylene) chain. I. Generalized Frenkel-Holstein Hamiltonian
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description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Matteo Bonfanti
@ast
Matteo Bonfanti
@en
Matteo Bonfanti
@es
Matteo Bonfanti
@nl
Matteo Bonfanti
@sl
type
label
Matteo Bonfanti
@ast
Matteo Bonfanti
@en
Matteo Bonfanti
@es
Matteo Bonfanti
@nl
Matteo Bonfanti
@sl
prefLabel
Matteo Bonfanti
@ast
Matteo Bonfanti
@en
Matteo Bonfanti
@es
Matteo Bonfanti
@nl
Matteo Bonfanti
@sl
P106
P1153
24528582400
P31
P496
0000-0002-6361-5163