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Ultrasoft colloids typically do not spontaneously crystallize, but rather vitrify, at high concentrations. Combining in situ rheo-small-angle-neutron-scattering experiments and numerical simulations we show that shear facilitates crystallization of colloidal star polymers in the vicinity of their glass transition. With increasing shear rate well beyond rheological yielding, a transition is found from an initial bcc-dominated structure to an fcc-dominated one. This crystal-to-crystal transition is not accompanied by intermediate melting but occurs via a sudden reorganization of the crystal structure. Our results provide a new avenue to tailor colloidal crystallization and the crystal-to-crystal transition at the molecular level by coupling softness and shear.

Crystal-to-Crystal Transition of Ultrasoft Colloids under Shear

Ruiz-Franco J.;Marakis J.;Gnan N.;Kohlbrecher J.;Gauthier M.;Lettinga M. P.;Vlassopoulos D.;Zaccarelli E.

2018

Abstract

Ultrasoft colloids typically do not spontaneously crystallize, but rather vitrify, at high concentrations. Combining in situ rheo-small-angle-neutron-scattering experiments and numerical simulations we show that shear facilitates crystallization of colloidal star polymers in the vicinity of their glass transition. With increasing shear rate well beyond rheological yielding, a transition is found from an initial bcc-dominated structure to an fcc-dominated one. This crystal-to-crystal transition is not accompanied by intermediate melting but occurs via a sudden reorganization of the crystal structure. Our results provide a new avenue to tailor colloidal crystallization and the crystal-to-crystal transition at the molecular level by coupling softness and shear.

Scheda breve

Scheda completa

Scheda completa (DC)

	Anno
	
				2018
			
	Strutture organizzative
	
				Istituto dei Sistemi Complessi - ISC
			
	Lingua/e
	
				Inglese
			
	Rivista
	
				PHYSICAL REVIEW LETTERS (PRINT)
			
	Codice Web of Science
	
				WOS:000460781500001
			
	Volume
	
				120
			
	Fascicolo
	
				7
			
	Da pagina
	
				078003-1
			
	A pagina
	
				078003-6
			
	Numero di pagine
	
				6
			
	Codice DOI
	
				https://dx.doi.org/10.1103/PhysRevLett.120.078003
			
	Codice Scopus
	
				2-s2.0-85042151932
			
	URL
	
				https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.120.078003
			
	Referee
	
				Sì, ma tipo non specificato
			
	Parole chiave
	
				Colloidal crystallization
Crystal transition
Molecular levels
Star polymers
			
	Numero autori
	
				8
			
	Tipologia
	
				info:eu-repo/semantics/article
			
	Tipologia Login Miur
	
				262
			
	Tutti gli autori
	
						Ruiz-Franco, J.; Marakis, J.; Gnan, N.; Kohlbrecher, J.; Gauthier, M.; Lettinga, M. P.; Vlassopoulos, D.; Zaccarelli, E.
					
	Tipologia
	
				01 Contributo su Rivista::01.01 Articolo in rivista
			
	Fulltext
	
				open
			
	Identificativo progetto
	
	Titolo Progetto
	
									Modeling microgels: from microscopic design to macroscopic description
								
	Acronimo
	
									MIMIC
								
	Finanziamento
	
									H2020
								
	N. Contratto
	
									681597
								
	Appare nelle tipologie:
	
				01.01 Articolo in rivista

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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.14243/351023

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