Lorenzo Botto, Ph.D.
Affiliations: | 2009 | Johns Hopkins University, Baltimore, MD |
Area:
fluid mechanicsGoogle:
"Lorenzo Botto"Parents
Sign in to add mentorAndrea Prosperetti | grad student | 2009 | Johns Hopkins | |
(Numerical simulation of extended particles in a fluid flow.) |
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Publications
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Gravelle S, Botto L. (2021) Adsorption of Single and Multiple Graphene-Oxide Nanoparticles at a Water-Vapor Interface. Langmuir : the Acs Journal of Surfaces and Colloids. 37: 13322-13330 |
Kamal C, Gravelle S, Botto L. (2021) Alignment of a flexible platelike particle in shear flow: Effect of surface slip and edges Physical Review Fluids. 6 |
Gu C, Botto L. (2020) FIPI: A fast numerical method for the simulation of particle-laden fluid interfaces Computer Physics Communications. 256: 107447 |
Newton BJ, Mohammed R, Davies GB, et al. (2018) Capillary Interaction and Self-Assembly of Tilted Magnetic Ellipsoidal Particles at Liquid Interfaces. Acs Omega. 3: 14962-14972 |
Zhang G, Quetzeri-Santiago MA, Stone CA, et al. (2018) Droplet impact dynamics on textiles. Soft Matter |
Gu C, Botto L. (2018) Buckling vs. particle desorption in a particle-covered drop subject to compressive surface stresses: a simulation study. Soft Matter |
Pandey A, Karpitschka S, Lubbers LA, et al. (2017) Dynamical theory of the inverted cheerios effect. Soft Matter |
Vidal AA, Botto L. (2017) Slip flow past a gas-liquid interface with embedded solid particles Journal of Fluid Mechanics. 813: 152-174 |
Karpitschka S, Pandey A, Lubbers LA, et al. (2016) Liquid drops attract or repel by the inverted Cheerios effect. Proceedings of the National Academy of Sciences of the United States of America |
Gu C, Botto L. (2015) Direct calculation of anisotropic surface stresses during deformation of a particle-covered drop. Soft Matter |