Sándalo Roldán-Vargas

Sándalo Roldán-Vargas
University of Granada | UGR · Department of Applied Physics

Professor

About

21
Publications
3,507
Reads
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510
Citations
Introduction
I am an associate professor in the Department of Applied Physics at the University of Granada. I am interested in different many-body phenomena emerging in soft matter systems such as dynamic collective behaviour and self-organisation. My research covers different topics within the field of disordered systems, including glasses, gels, and living matter systems. I mainly use computational and theoretical approaches but I also consider some experimental techniques such as light scattering.
Additional affiliations
January 2009 - May 2009
Laboratoire Charles Coulomb, French National Centre for Scientific Research
Position
  • PhD Student
June 2019 - May 2021
University of Granada
Position
  • Marie Skłodowska-Curie Fellow
January 2016 - December 2018
Max Planck Institute for the Physics of Complex Systems
Position
  • Guest Scientist
Education
October 2007 - May 2011
University of Granada
Field of study
  • Physics

Publications

Publications (21)
Preprint
Full-text available
Dynamics in glassy systems near the phase transition is characterized by the occurrence of particle jumps. Approaches to describe these jumps are based on models which include the time and length scales defining the jump dynamics as parameters to be determined. We instead propose a model-independent method to detect these jumps. Our method adopts t...
Article
Full-text available
Lennard--Jones mixtures represent one of the popular systems for the study of glass--forming liquids. Spatio/temporal heterogeneity and rare (activated) events are at the heart of the slow dynamics typical of these systems. Such slow dynamics is characterised by the development of a plateau in the mean--squared displacement (MSD) at intermediate ti...
Preprint
Full-text available
According to the classical theory of Brownian motion, the mean-squared displacement of diffusing particles evolves linearly with time, whereas the distribution of their displacements is Gaussian. However, recent experiments on mesoscopic particle systems have discovered Brownian yet non-Gaussian regimes where diffusion coexists with an exponential...
Article
Full-text available
Understanding stabilization and aggregation in magnetic nanoparticle systems is crucial to optimizing the functionality of these systems in real physiological applications. Here we address this problem for a specific, yet representative, system. We present an experimental and analytical study on the aggregation of superparamagnetic liposomes in sus...
Article
Full-text available
We report a detailed computational study by Brownian Dynamics simulations of the structure and dynamics of a liquid of patchy particles which develops an amorphous tetrahedral network upon decreasing temperature. The highly directional particle interactions allows us to investigate the system connectivity by discriminating the total set of particle...
Article
Full-text available
We study the phase diagram of a binary mixture of patchy particles which has been designed to form a reversible gel. For this we perform Monte Carlo and molecular dynamics simulations to investigate the thermodynamics of such a system and compare our numerical results with predictions based on the analytical parameter-free Wertheim theory. We explo...
Article
Full-text available
We exploit the concept of competing interactions to design a binary mixture of patchy particles that forms a reversible gel upon heating. Our molecular dynamics computer simulation of such a system shows that with increasing temperature the relaxation dynamics slows down by more than four orders of magnitude and then speeds up again. The system is...
Data
Full-text available
Gelling by Heating: Supplementary Information
Article
Full-text available
Reply to Comment by Flenner and Szamel on our paper in Nature Physics 8, 164 (2012).
Article
Full-text available
We discuss a novel approach, the point-to-set correlation functions, that allows to determine relevant static and dynamic length scales in glass-forming liquids. We find that static length scales increase monotonically when the temperature is lowered, whereas the measured dynamic length scale shows a maximum around the critical temperature of mode-...
Article
Full-text available
The viscosity of glass-forming liquids increases by many orders of magnitude if their temperature is lowered by a mere factor of 2-3 [1,2]. Recent studies suggest that this widespread phenomenon is accompanied by spatially heterogeneous dynamics [3,4], and a growing dynamic correlation length quantifying the extent of correlated particle motion [5-...
Article
Three families of non-reducing trisaccharide fatty acid monoesters bearing C₁₀ to C₁₈ acyl chains have been prepared by enzymatic synthesis in organic media. Their critical micelle concentrations, determined by dye-inclusion measurements, cover a broad range from mM to μM. The new compounds are capable of dissolving phospholipid vesicles and have b...
Article
We study the relaxation of both spontaneous and shear-induced fluctuations in suspensions of charged-stabilized colloidal particles near the glass transition by dynamic light scattering and rheology. Both observations are here understood in terms of a common structural relaxation process under a hard-sphere mode-coupling formalism. For ergodic syst...
Article
In this work, the stochastic properties of the detected signal in dynamic light scattering experiments are examined in light of Doob's theorem. For Markovian observations of the Brownian particle position, we prove from this theorem that the electric field scattered by a polydisperse suspension can be accounted for by a linear combination of Ornste...
Article
We study the nondiffusive Brownian motion of both rigid and deformable mesoscopic particles by cross-correlated dynamic light scattering with microsecond temporal resolution. Whereas rigid particles show the classical long-time tail prediction, the transition to diffusive motion of deformable particles presents a striking behavior not explained by...
Article
Full-text available
In this work, the aggregation of charged liposomes induced by magnesium is investigated. Static and dynamic light scattering, Fourier-transform infrared spectroscopy, and cryotransmission electron microscopy are used as experimental techniques. In particular, multiple intracluster scattering is reduced to a negligible amount using a cross-correlati...
Article
We report the first observation of a transition from the ergodic liquid state to the nonergodic glass in concentrated charged liposomes suspensions. In consequence, the measured dynamic structure factors, determined by means of a three‐dimensional dynamic light scattering scheme, evolve to nondecaying components as the liposomes volume fraction is...
Article
An enormous theoretical and experimental effort has been carried out in order to understand the physical rules of brownian motion. From an experimental point of view, a very powerful access widely used to study the statistical properties of a brownian particles system, is the so called Dynamic Light Scattering (DLS).
Article
We study fractal vesicle aggregates whose morphology is conditioned by the interaction between the lipid vesicle membranes and calcium and magnesium ions. These morphologies are probed by means of static light scattering using a cross-correlation scheme that avoids the multiple intracluster scattering. In contrast to the branched structures induced...
Article
In this work, the calcium-induced aggregation of phosphatidylserine liposomes is probed by means of the analysis of the kinetics of such process as well as the aggregate morphology. This novel characterization of liposome aggregation involves the use of static and dynamic light-scattering techniques to obtain kinetic exponents and fractal dimension...

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