Publications
Reply to “Comment on ‘Determination of the bulk melting temperature of nickel using Monte Carlo simulations: Inaccuracy of extrapolation from cluster melting temperatures' ”. Physical Review B. 84(9):ArticleNumber:096103.
.
2011. Realistic molecular model of kerogen’s nanostructure. Nature Materials.
.
2016. Reactive elastomeric composites: When rubber meets cement. Composites Science and Technology. 75:77-83.
.
2013. A reaction model for cement solidification: Evolving the C–S–H packing density at the micrometer-scale. Journal of the Mechanics and Physics of Solids. 118:58-73.
.
2018. Radial fracture in a three-phase composite: Application to wellbore cement liners at early ages. Engineering Fracture Mechanics. 154:272-287.
.
2016. Quasistatic rheology and microstructural description of sheared granular materials composed of platy particles. Physical Review E. 87(3):ArticleNumber:032206.
.
2013. Quantifying plasticity-independent creep compliance and relaxation of viscoelastoplastic materials under contact loading. Journal of Materials Research. 27(01):302-312.
.
2012. Production of H 2 by water radiolysis in cement paste under electron irradiation: A joint experimental and theoretical study. Cement and Concrete Research. 100:110-118.
.
2017. Probing the microporosity of low-k organosilica films: MP and t-plot methods applied to ellipsometric porosimetry data. Microporous and Mesoporous Materials. 217:119-124.
.
2015. Probing Interconnectivity in Hierarchical Microporous/Mesoporous Materials Using Adsorption and Nuclear Magnetic Resonance Diffusion. The Journal of Physical Chemistry C. 120(3):1562-1569.
.
2016. Pressure effects in confined nanophases. Molecular Simulation. 40(7-9):721-730.
.
2014. On the prediction of graphene’s elastic properties with reactive empirical bond order potentials. Carbon. 89:176-187.
.
2015. Predicting the settlement of coarse granular materials under vertical loading. Scientific Reports. 4:ArticleNumber:5707.
.
2014. Predicting Adsorption on Bare and Modified Silica Surfaces. The Journal of Physical Chemistry C. 119(11):6009-6017.
.
2015. Potential-of-Mean-Force Approach for Molecular Dynamics–Based Resilience Assessment of Structures. Journal of Engineering Mechanics. 144(8):04018066.
.
2018. A potential-of-mean-force approach for fracture mechanics of heterogeneous materials using the lattice element method. Journal of the Mechanics and Physics of Solids. 105:116-130.
.
2017. The Potential of Mean Force concept for bridging (length and time) scales in the modeling of complex porous materials. EPJ Web of Conferences. 140:ArticleNumber01009.
.
2017. Poromechanics of microporous media. Journal of the Mechanics and Physics of Solids. 60(4):606–622.
.
2012. Poroelasticity of Methane-Loaded Mature and Immature Kerogen from Molecular Simulations. Langmuir. 34(45):13766-13780.
.
2018. Poroelastic Theory Applied to the Adsorption-Induced Deformation of Vitreous Silica. The Journal of Physical Chemistry B. 118(49):14519-14525.
.
2014. Polarized Water Wires under Confinement in Chiral Channels. The Journal of Physical Chemistry B. 119(28):8707-8717.
.
2015. Plane-Strain Crack Problem in Transversely Isotropic Solids for Hydraulic Fracturing Applications. Journal of Engineering Mechanics. 140(12):ArticleNumber:04014092.
.
2014. Physics and technological aspects of nanofluidics. Lab on a Chip. 14(17):3143-3158.
.
2014. Physical Origins of Thermal Properties of Cement Paste. Physical Review Applied. 3(6):ArticleNumber:064010.
.
2015. Phase separation of stable colloidal clusters. Physical Review Materials. 2(9)
.
2018.