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roberto.dileonardo@uniroma1.it
Roberto Di Leonardo
Professore Ordinario
Struttura:
DIPARTIMENTO DI FISICA
E-mail:
roberto.dileonardo@uniroma1.it
Pagina istituzionale corsi di laurea
Curriculum Sapienza
Pubblicazioni
Titolo
Pubblicato in
Anno
Microrheology of DNA hydrogel gelling and melting on cooling
SOFT MATTER
2018
An optical reaction micro-turbine
NATURE COMMUNICATIONS
2018
Holographic imaging reveals the mechanism of wall entrapment in swimming bacteria
PHYSICAL REVIEW. X
2017
Light controlled 3D micromotors powered by bacteria
NATURE COMMUNICATIONS
2017
Memory-less response and violation of the fluctuation-dissipation theorem in colloids suspended in an active bath
SCIENTIFIC REPORTS
2017
Active particles in complex and crowded environments
REVIEWS OF MODERN PHYSICS
2016
Active dynamics of colloidal particles in time-varying laser speckle patterns
SCIENTIFIC REPORTS
2016
Holographic tracking and sizing of optically trapped microprobes in diamond anvil cells
OPTICS EXPRESS
2016
Velocity distribution in active particles systems
SCIENTIFIC REPORTS
2016
Self-Assembly of Micromachining Systems Powered by Janus Micromotors
SMALL
2016
Mechanism of self-propulsion in 3D-printed active granular particles
NEW JOURNAL OF PHYSICS
2016
Shape and displacement fluctuations in soft vesicles filled by active particles
SCIENTIFIC REPORTS
2016
Active colloids: Controlled collective motions
NATURE MATERIALS
2016
Hydrodynamic Trapping of Swimming Bacteria by Convex Walls
PHYSICAL REVIEW LETTERS
2015
Micromotors with asymmetric shape that efficiently convert light into work by thermocapillary effects
NATURE COMMUNICATIONS
2015
Multidimensional stationary probability distribution for interacting active particles
SCIENTIFIC REPORTS
2015
Self-Sustained Density Oscillations of Swimming Bacteria Confined in Microchambers
PHYSICAL REVIEW LETTERS
2015
Polar features in the flagellar propulsion of E. coli bacteria
PHYSICAL REVIEW E, STATISTICAL, NONLINEAR, AND SOFT MATTER PHYSICS
2015
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Progetti di Ricerca
Synthetic photobiology for light controllable active matter
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