0000000000024002

AUTHOR

Michael Sztucki

showing 3 related works from this author

Packing polydisperse colloids into crystals: when charge-dispersity matters

2019

Monte-Carlo simulations and small-angle x-ray scattering experiments were used to determine the phase diagram of aqueous dispersions of titratable nano-colloids with a moderate size polydispersity over a broad range of monovalent salt concentrations, 0.5 mM $\leq c_s \leq$ 50 mM and volume fractions, $\phi$. Under slow and progressive increase in $\phi$, the dispersions freeze into a face-centered-cubic (fcc) solid followed unexpectedly by the formation of a body centered cubic (bcc) phase before to melt in a glass forming liquid. The simulations are found to predict very well these observations. They suggest that the stabilization of the bcc solid at the expense of the fcc phase at high $\…

Range (particle radiation)Materials scienceScatteringDispersityGeneral Physics and AstronomyThermodynamicsFOS: Physical sciencesCharge (physics)Cubic crystal systemCondensed Matter - Soft Condensed Matter01 natural sciences[PHYS.PHYS.PHYS-CHEM-PH] Physics [physics]/Physics [physics]/Chemical Physics [physics.chem-ph]Condensed Matter::Soft Condensed MatterColloidPhase (matter)0103 physical sciencesSoft Condensed Matter (cond-mat.soft)[PHYS.PHYS.PHYS-CHEM-PH]Physics [physics]/Physics [physics]/Chemical Physics [physics.chem-ph]010306 general physicsPhase diagram
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Hiding in plain view: Colloidal self-assembly from polydisperse populations.

2016

We report small-angle x-ray scattering (SAXS) experiments on aqueous dispersions of colloidal silica with a broad monomodal size distribution (polydispersity 18%, size 8 nm). Over a range of volume fractions the silica particles segregate to build first one, then two distinct sets of colloidal crystals. These dispersions thus demonstrate fractional crystallization and multiple-phase (bcc, Laves AB$_2$, liquid) coexistence. Their remarkable ability to build complex crystal structures from a polydisperse population originates from the intermediate-range nature of interparticle forces, and suggests routes for designing self-assembling colloidal crystals from the bottom-up.

Materials sciencecrystallizationColloidal silicaPopulationDispersitydistributionsGeneral Physics and AstronomyFOS: Physical sciencesNanotechnology02 engineering and technologyCondensed Matter - Soft Condensed Matter010402 general chemistry01 natural scienceslaw.inventionsmall-angle scatteringColloidlawPhysics - Chemical PhysicsdispersionssuspensionsCrystallizationeducationChemical Physics (physics.chem-ph)[PHYS]Physics [physics]education.field_of_study[ PHYS ] Physics [physics]phase-transitionsColloidal crystal021001 nanoscience & nanotechnology0104 chemical sciences2 different sizesclose-packed structuresChemical physicshard-spherecharge renormalizationSoft Condensed Matter (cond-mat.soft)Self-assemblySmall-angle scattering0210 nano-technology
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Competing salt effects on phase behavior of protein solutions: tailoring of protein interaction by the binding of multivalent ions and charge screeni…

2014

The phase behavior of protein solutions is affected by additives such as crowder molecules or salts. In particular, upon addition of multivalent counterions, a reentrant condensation can occur; i.e., protein solutions are stable for low and high multivalent ion concentrations but aggregating at intermediate salt concentrations. The addition of monovalent ions shifts the phase boundaries to higher multivalent ion concentrations. This effect is found to be reflected in the protein interactions, as accessed via small-angle X-ray scattering. Two simulation schemes (a Monte Carlo sampling of the counterion binding configurations using the detailed protein structure and an analytical coarse-grain…

chemistry.chemical_classificationIonsCondensationOsmolar ConcentrationSurfaces Coatings and FilmsIonProtein–protein interactionProtein structurechemistryX-Ray DiffractionIonic strengthComputational chemistryPhase (matter)Scattering Small AngleMaterials ChemistryMoleculeHumansSaltsPhysical and Theoretical ChemistryCounterionSerum AlbuminThe journal of physical chemistry. B
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