Understanding, predicting, and tuning the fragility of vitrimeric polymers

Ciarella, Simone; Biezemans, Rutger A.; Janssen, Liesbeth M. C.

doi:10.1073/pnas.1912571116

Cited by 51 publications

(73 citation statements)

References 86 publications

(114 reference statements)

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“…Our results are fundamental for present and future studies that investigate the GMCT solutions often numerically, when analytical results are not available, as a means to study e.g. fragility and tunability of liquid models in schematic GMCT [14,19,25]. Existence and uniqueness of solutions is then essential.…”

Section: Discussionmentioning

confidence: 93%

Glassy dynamics from generalized mode-coupling theory: existence and uniqueness of solutions for hierarchically coupled integro-differential equations

Biezemans¹,

Ciarella²,

Çaylak³

et al. 2020

J. Stat. Mech.

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Section: Discussionmentioning

confidence: 93%

Glassy dynamics from generalized mode-coupling theory: existence and uniqueness of solutions for hierarchically coupled integro-differential equations

Biezemans¹,

Ciarella²,

Çaylak³

et al. 2020

J. Stat. Mech.

Self Cite

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“…Our new results are relevant to constructing more accurate theories of the equilibrium behavior of ultra-dense hard sphere fluids, density functional theories of crystallization [27] and interfaces [28], phase separation of hard sphere mixtures [29,30] and polymer-colloid mixtures [31,32], etc. But our prime motivation is its relevance as input to the dynamical theories mentioned above, which to date have most often used the PY closure [10,14,[33][34][35]. Extent microscopic theories of glassy dynamics typically require to high accuracy the Fourier space static structure factor, ( ), or the direct correlation function, ( ), including at very large wavevectors not easy to accurately determine with simulation.…”

Section: Introductionmentioning

confidence: 99%

Integral equation theory of thermodynamics, pair structure, and growing static length scale in metastable hard sphere and Weeks-Chandler-Andersen fluids

2020

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We employ Ornstein-Zernike integral equation theory with the Percus-Yevick (PY) and Modified-Verlet (MV) closures to study the equilibrium structural and thermodynamic properties of metastable monodisperse hard sphere and continuous repulsion Weeks-Chandler-Andersen (WCA) fluids under density and temperature conditions that the system is strongly over-compressed or supercooled, respectively. The theoretical results are compared to new crystal-avoiding simulations of these dense monodisperse model one-component fluids. The equation-of-state (EOS) and dimensionless compressibility are computed using both the virial and compressibility routes. For hard spheres, the MVbased virial route EOS and dimensionless compressibility are in very good agreement with simulation for all packing fractions, much better than the PY analogs. The corresponding MV-based predictions for the static structure factor are also very good.The amplitude of density fluctuations on the local cage scale and in the long wavelength limit, and three technically different measures of the density correlation length, are studied with both closures. All five properties grow in a roughly exponential manner with density in the metastable regime up to packing fractions of 58% with no sign of saturation. The MV-based results are in good agreement with our new crystal-avoiding simulations. Interestingly, the density dependences of long and short wavelength quantities are closely related. The MV-based theory is also quite accurate for the thermodynamics and structure of supercooled monodisperse WCA fluids. Overall our findings are also relevant as critical input to microscopic theories that relate the equilibrium pair correlation function or static structure factor to dynamical constraints, barriers, and activated relaxation in glass-forming liquids.

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“…Glasses possessing the most dramatic slowdown are classified as fragile, whereas the opposite are referred to as strong. Several models of glasses have been able to reproduce a range of kinetic fragilities [12][13][14][15][16]. A closely related thermodynamic fragility [17] has also been defined and is based on how dramatically the entropy drops as the temperature decreases.…”

mentioning

confidence: 99%

Fragile Glasses Associated with a Dramatic Drop of Entropy under Supercooling

et al. 2020

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We perform kinetic Monte Carlo simulations of a distinguishable-particle lattice model of structural glasses with random particle interactions. By varying the interaction distribution and the average particle hopping energy barrier, we obtain an extraordinarily wide range of kinetic fragility. A stretching exponent, characterizing structural relaxation, is found to decrease with the kinetic fragility in agreement with experiments. The most fragile glasses are those exhibiting low hopping barriers and, more importantly, dramatic drops of entropies upon cooling toward the glass transition temperatures. The entropy drops reduce possible kinetic pathways and lead to dramatic slowdowns in the dynamics. In addition, the kinetic fragility is shown to correlate with a thermodynamic fragility.

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Understanding, predicting, and tuning the fragility of vitrimeric polymers

Cited by 51 publications

References 86 publications

Glassy dynamics from generalized mode-coupling theory: existence and uniqueness of solutions for hierarchically coupled integro-differential equations

Glassy dynamics from generalized mode-coupling theory: existence and uniqueness of solutions for hierarchically coupled integro-differential equations

Integral equation theory of thermodynamics, pair structure, and growing static length scale in metastable hard sphere and Weeks-Chandler-Andersen fluids

Fragile Glasses Associated with a Dramatic Drop of Entropy under Supercooling

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