Tuning the dynamic fragility of acrylic polymers by small molecules: the interplay of molecular structures

Tuning the dynamic fragility of acrylic polymers by small molecules: the interplay of molecular structures

This report studied changes in the dynamic fragility ( m ) of poly(butyl methacrylate) (PBMA) by introducing guest hindered phenols capable of forming two or three intermolecular hydrogen bonds (inter-HBs) per molecule with the host polymer. The small molecules effectively decrease the m value, even...

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Veröffentlicht in:Soft matter 2021-08, Vol.17 (32), p.7541-7553
Hauptverfasser: Liu, Yuanbiao, Shi, Gaopeng, Wu, Guozhang
Format: Artikel
Sprache:eng
Schlagworte:
Aging
Chemical bonds
Cooling rate
Enthalpy
Fragility
Glass transition temperature
Hybrids
Hydrogen bonding
Hydrogen bonds
Hydroxyl groups
Low concentrations
Molecular structure
Phenols
Polybutyl methacrylates
Polymers
Reduction
Steric hindrance
Transition temperatures
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container_title Soft matter
container_volume 17
creator Liu, Yuanbiao
Shi, Gaopeng
Wu, Guozhang
description This report studied changes in the dynamic fragility ( m ) of poly(butyl methacrylate) (PBMA) by introducing guest hindered phenols capable of forming two or three intermolecular hydrogen bonds (inter-HBs) per molecule with the host polymer. The small molecules effectively decrease the m value, even if they apparently increase the glass transition temperature ( T g ) of mixtures. The reduction in m was confirmed by enthalpy relaxation in two aspects: adding the guest molecule leads to a stronger cooling rate dependence of the limiting fictive temperature together with an apparent increase in aging rate of PBMA hybrids at low concentrations. By varying the molecule size and steric hindrance of the hydroxyl group on the hindered phenols, we clarified that m is primarily governed by the strength of inter-HB interactions, while the T g value of mixtures depends on a combined effect of additive bulkiness and HB interaction. The anomalous dynamics was further rationalized not only by the HB-induced flexibility balance between side groups and backbone, but also by the reduction of cooperative rearranging sizes and alleviation of long-chain connectivity in such HB-driven hybrids. Changes in dynamic fragility ( m ) of poly(butyl methacrylate) (PBMA) have been systematically studied by introducing guest hindered phenols with varied sizes and hydroxyl steric hindrances that can form a hydrogen-bonding network among PBMA chains.
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The small molecules effectively decrease the m value, even if they apparently increase the glass transition temperature ( T g ) of mixtures. The reduction in m was confirmed by enthalpy relaxation in two aspects: adding the guest molecule leads to a stronger cooling rate dependence of the limiting fictive temperature together with an apparent increase in aging rate of PBMA hybrids at low concentrations. By varying the molecule size and steric hindrance of the hydroxyl group on the hindered phenols, we clarified that m is primarily governed by the strength of inter-HB interactions, while the T g value of mixtures depends on a combined effect of additive bulkiness and HB interaction. The anomalous dynamics was further rationalized not only by the HB-induced flexibility balance between side groups and backbone, but also by the reduction of cooperative rearranging sizes and alleviation of long-chain connectivity in such HB-driven hybrids. 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source Royal Society Of Chemistry Journals 2008-; Alma/SFX Local Collection
subjects Aging
Chemical bonds
Cooling rate
Enthalpy
Fragility
Glass transition temperature
Hybrids
Hydrogen bonding
Hydrogen bonds
Hydroxyl groups
Low concentrations
Molecular structure
Phenols
Polybutyl methacrylates
Polymers
Reduction
Steric hindrance
Transition temperatures
title Tuning the dynamic fragility of acrylic polymers by small molecules: the interplay of molecular structures
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