We report an experimental and theoretical investigation of glass formation in soft thermo-sensitive colloids following two different routes: a gradual increase of the particle number density at constant temperature and an increase of the radius in a fixed volume at constant particle number density. Confocal microscopy experiments and the non-equilibrium self-consistent generalized Langevin equation (NE-SCGLE) theory consistently show that the two routes lead to a dynamically comparable state at sufficiently long aging times. However, experiments reveal the presence of moderate but persistent structural differences. Successive cycles of radius decrease and increase lead instead to a reproducible glass state, indicating a suitable route to obtain rejuvenation without using shear fields.
Different routes into the glass state for soft thermo-sensitive colloids / Rivas-Barbosa R.; Lazaro-Lazaro E.; Mendoza-Mendez P.; Still T.; Piazza V.; Ramirez-Gonzalez P.E.; Medina-Noyola M.; Laurati M.. - In: SOFT MATTER. - ISSN 1744-683X. - ELETTRONICO. - 14:(2018), pp. 5008-5018. [10.1039/c8sm00285a]
Different routes into the glass state for soft thermo-sensitive colloids
Laurati M.
2018
Abstract
We report an experimental and theoretical investigation of glass formation in soft thermo-sensitive colloids following two different routes: a gradual increase of the particle number density at constant temperature and an increase of the radius in a fixed volume at constant particle number density. Confocal microscopy experiments and the non-equilibrium self-consistent generalized Langevin equation (NE-SCGLE) theory consistently show that the two routes lead to a dynamically comparable state at sufficiently long aging times. However, experiments reveal the presence of moderate but persistent structural differences. Successive cycles of radius decrease and increase lead instead to a reproducible glass state, indicating a suitable route to obtain rejuvenation without using shear fields.
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soft_glasses_final.pdf
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Descrizione: Articolo principale
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Versione finale referata (Postprint, Accepted manuscript)
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1.15 MB | Adobe PDF |
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