Marco Lauricella
Marco Lauricella
Institute for Computing Applications, National Research Council of Italy
Email verificata su iac.cnr.it
Titolo
Citata da
Citata da
Anno
Methane clathrate hydrate nucleation mechanism by advanced molecular simulations
M Lauricella, S Meloni, NJ English, B Peters, G Ciccotti
The Journal of Physical Chemistry C 118 (40), 22847-22857, 2014
642014
Massively parallel molecular dynamics simulation of formation of clathrate-hydrate precursors at planar water-methane interfaces: Insights into heterogeneous nucleation
NJ English, M Lauricella, S Meloni
The Journal of chemical physics 140 (20), 204714, 2014
422014
JETSPIN: A specific-purpose open-source software for simulations of nanofiber electrospinning
M Lauricella, G Pontrelli, I Coluzza, D Pisignano, S Succi
Computer Physics Communications 197, 227-238, 2015
222015
Clathrate structure-type recognition: Application to hydrate nucleation and crystallisation
M Lauricella, S Meloni, S Liang, NJ English, PG Kusalik, G Ciccotti
The Journal of chemical physics 142 (24), 244503, 2015
212015
Sub-ms dynamics of the instability onset of electrospinning
M Montinaro, V Fasano, M Moffa, A Camposeo, L Persano, M Lauricella, ...
Soft matter 11 (17), 3424-3431, 2015
202015
Regularized lattice Boltzmann multicomponent models for low capillary and Reynolds microfluidics flows
A Montessori, M Lauricella, M La Rocca, S Succi, E Stolovicki, R Ziblat, ...
Computers & Fluids 167, 33-39, 2018
192018
Mechanistic modelling of drug release from multi-layer capsules
B Kaoui, M Lauricella, G Pontrelli
Computers in biology and medicine 93, 149-157, 2018
182018
Nonlinear Langevin model for the early-stage dynamics of electrospinning jets
M Lauricella, G Pontrelli, D Pisignano, S Succi
Molecular Physics 113 (17-18), 2435-2441, 2015
142015
Elucidating the mechanism of step emulsification
A Montessori, M Lauricella, S Succi, E Stolovicki, D Weitz
Physical Review Fluids 3 (7), 072202, 2018
122018
Effects of orthogonal rotating electric fields on electrospinning process
M Lauricella, F Cipolletta, G Pontrelli, D Pisignano, S Succi
Physics of Fluids 29 (8), 082003, 2017
122017
Three-dimensional model for electrospinning processes in controlled gas counterflow
M Lauricella, D Pisignano, S Succi
The Journal of Physical Chemistry A 120 (27), 4884-4892, 2016
122016
Different regimes of the uniaxial elongation of electrically charged viscoelastic jets due to dissipative air drag
M Lauricella, G Pontrelli, I Coluzza, D Pisignano, S Succi
Mechanics Research Communications 69, 97-102, 2015
122015
Mesoscale modelling of soft flowing crystals
A Montessori, M Lauricella, S Succi
Philosophical Transactions of the Royal Society A 377 (2142), 20180149, 2019
112019
Towards exascale lattice boltzmann computing
S Succi, G Amati, M Bernaschi, G Falcucci, M Lauricella, A Montessori
Computers & Fluids 181, 107-115, 2019
112019
Mesoscale modelling of near-contact interactions for complex flowing interfaces
A Montessori, M Lauricella, N Tirelli, S Succi
Journal of Fluid Mechanics 872, 327-347, 2019
92019
Mesoscopic model for soft flowing systems with tunable viscosity ratio
L Fei, A Scagliarini, A Montessori, M Lauricella, S Succi, KH Luo
Physical Review Fluids 3 (10), 104304, 2018
92018
Dynamic mesh refinement for discrete models of jet electro-hydrodynamics
M Lauricella, G Pontrelli, D Pisignano, S Succi
Journal of Computational Science 17, 325-333, 2016
92016
Jetting to dripping transition: Critical aspect ratio in step emulsifiers
A Montessori, M Lauricella, E Stolovicki, DA Weitz, S Succi
Physics of Fluids 31 (2), 021703, 2019
82019
Entropic lattice Boltzmann model for charged leaky dielectric multiphase fluids in electrified jets
M Lauricella, S Melchionna, A Montessori, D Pisignano, G Pontrelli, ...
Physical Review E 97 (3), 033308, 2018
82018
Mechanisms and nucleation rate of methane hydrate by dynamical nonequilibrium molecular dynamics
M Lauricella, G Ciccotti, NJ English, B Peters, S Meloni
The Journal of Physical Chemistry C 121 (43), 24223-24234, 2017
82017
Il sistema al momento non può eseguire l'operazione. Riprova più tardi.
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