Glassy states in asymmetric mixtures of soft and hard colloids

Domenico Truzzolillo; Daniela Marzi; John Marakis; Barbara Capone; Manuel Camargo; Abdul Munam; Firmin Moingeon; Mario Gauthier; Christos N. Likos; Dimitris Vlassopoulos

doi:10.1103/PhysRevLett.111.208301

Glassy states in asymmetric mixtures of soft and hard colloids

Domenico Truzzolillo^*, Daniela Marzi, John Marakis, Barbara Capone, Manuel Camargo, Abdul Munam, Firmin Moingeon, Mario Gauthier, Christos N. Likos, Dimitris Vlassopoulos

^*المؤلف المقابل لهذا العمل

نتاج البحث: المساهمة في مجلة › Article › مراجعة النظراء

22 اقتباسات (Scopus)

ملخص

By employing rheological experiments, mode coupling theory, and computer simulations based on realistic coarse-grained models, we investigate the effects of small, hard colloids on the glassy states formed by large, soft colloids. Multiarm star polymers mimic hard and soft colloids by appropriately varying the number and size of their arms. The addition of hard colloids leads, depending on their concentration, to either melting of the soft glass or the emergence of two distinct glassy states. We explain our findings by depletion of the colloids adjacent to the stars, which leads to an arrested phase separation when the repulsive glass line meets the demixing binodal. The parameter-free agreement between experiment, theory, and simulations suggests the generic nature of our results and opens the route for designing soft-hard colloidal composites with tunable rheology.

اللغة الأصلية	English
رقم المقال	208301
دورية	Physical Review Letters
مستوى الصوت	111
رقم الإصدار	20
المعرِّفات الرقمية للأشياء	https://doi.org/10.1103/PhysRevLett.111.208301
حالة النشر	Published - نوفمبر 14 2013
منشور خارجيًا	نعم

ASJC Scopus subject areas

???subjectarea.asjc.3100.3100???

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10.1103/PhysRevLett.111.208301

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title = "Glassy states in asymmetric mixtures of soft and hard colloids",

abstract = "By employing rheological experiments, mode coupling theory, and computer simulations based on realistic coarse-grained models, we investigate the effects of small, hard colloids on the glassy states formed by large, soft colloids. Multiarm star polymers mimic hard and soft colloids by appropriately varying the number and size of their arms. The addition of hard colloids leads, depending on their concentration, to either melting of the soft glass or the emergence of two distinct glassy states. We explain our findings by depletion of the colloids adjacent to the stars, which leads to an arrested phase separation when the repulsive glass line meets the demixing binodal. The parameter-free agreement between experiment, theory, and simulations suggests the generic nature of our results and opens the route for designing soft-hard colloidal composites with tunable rheology.",

author = "Domenico Truzzolillo and Daniela Marzi and John Marakis and Barbara Capone and Manuel Camargo and Abdul Munam and Firmin Moingeon and Mario Gauthier and Likos, {Christos N.} and Dimitris Vlassopoulos",

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T1 - Glassy states in asymmetric mixtures of soft and hard colloids

AU - Truzzolillo, Domenico

AU - Marzi, Daniela

AU - Marakis, John

AU - Capone, Barbara

AU - Camargo, Manuel

AU - Munam, Abdul

AU - Moingeon, Firmin

AU - Gauthier, Mario

AU - Likos, Christos N.

AU - Vlassopoulos, Dimitris

PY - 2013/11/14

Y1 - 2013/11/14

N2 - By employing rheological experiments, mode coupling theory, and computer simulations based on realistic coarse-grained models, we investigate the effects of small, hard colloids on the glassy states formed by large, soft colloids. Multiarm star polymers mimic hard and soft colloids by appropriately varying the number and size of their arms. The addition of hard colloids leads, depending on their concentration, to either melting of the soft glass or the emergence of two distinct glassy states. We explain our findings by depletion of the colloids adjacent to the stars, which leads to an arrested phase separation when the repulsive glass line meets the demixing binodal. The parameter-free agreement between experiment, theory, and simulations suggests the generic nature of our results and opens the route for designing soft-hard colloidal composites with tunable rheology.

AB - By employing rheological experiments, mode coupling theory, and computer simulations based on realistic coarse-grained models, we investigate the effects of small, hard colloids on the glassy states formed by large, soft colloids. Multiarm star polymers mimic hard and soft colloids by appropriately varying the number and size of their arms. The addition of hard colloids leads, depending on their concentration, to either melting of the soft glass or the emergence of two distinct glassy states. We explain our findings by depletion of the colloids adjacent to the stars, which leads to an arrested phase separation when the repulsive glass line meets the demixing binodal. The parameter-free agreement between experiment, theory, and simulations suggests the generic nature of our results and opens the route for designing soft-hard colloidal composites with tunable rheology.

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Glassy states in asymmetric mixtures of soft and hard colloids

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