A novel strategy inspired by Luban lock towards endowing polyzwitterionic electrolyte hydrogel with UCST behaviors
The electrostatic interaction in polyzwitterionic electrolyte hydrogels is the prerequisite for materials to exhibit temperature-sensitive behaviors. Few reports mention the potential temperature-sensitive properties of these hydrogels, although amounts of polyzwitterionic electrolyte hydrogels with...
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Veröffentlicht in: | Polymer (Guilford) 2024-11, Vol.313, p.127711, Article 127711 |
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Sprache: | eng |
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Zusammenfassung: | The electrostatic interaction in polyzwitterionic electrolyte hydrogels is the prerequisite for materials to exhibit temperature-sensitive behaviors. Few reports mention the potential temperature-sensitive properties of these hydrogels, although amounts of polyzwitterionic electrolyte hydrogels with bright prospects in advanced fields have been reported. PMAD (copolymer of AM, AA and DMC) is a typical polyzwitterionic electrolyte, which is taken as an example to elucidate the essential conditions for the UCST behaviors of polyzwitterionic electrolyte hydrogels. The temperature-sensitive properties of PMAD hydrogels depends on the tight stacking of zwitterionic polymer chains, while the introduction of chemical crosslinker could limit the movement of PMAD chains and increase the difficulty of forming effective electrostatic interactions between zwitterionic segments resulting in the disappearance of UCST behaviors. Accordingly, the strategy inspired by the Chinese Luban lock for compressing the distance of PMAD chains by utilizing the “mortise-tenon” structure could recovery the UCST behaviors of PMAD and are expected to endow more polyzwitterionic electrolyte hydrogels with temperature-responsive properties.
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•The temperature-sensitive properties of PMAD hydrogels depends on the tight stacking of zwitterionic polymer chains.•PMAD hydrogels with high monomer concentration could exhibit UCST behaviors in which chains can be freely stacked.•Chemical crosslinker could increase the difficulty in forming effective electrostatic interactions.•A strategy inspired by Luban lock towards endowing polyzwitterionic electrolyte hydrogel with UCST behaviors was proposed.•The strategy is expected to endow more polyzwitterionic electrolyte hydrogels with temperature-responsive properties. |
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ISSN: | 0032-3861 |
DOI: | 10.1016/j.polymer.2024.127711 |