2020
DOI: 10.1002/pol.20200628
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Robust and recoverable dual cross‐linking networks in pressure‐sensitive adhesives

Abstract: Pressure-sensitive adhesives (PSAs) demand the ability to simultaneously improve toughness and adhesion. However, these requirements of PSAs have remained a great challenge because robust and recoverable characteristics are usually contradictory properties of PSAs. Dual cross-linking networks developed by incorporating dynamic noncovalent bonds into chemical cross-linking networks have the potential to mitigate these requirements in a wide variety of applications including adhesives, hydrogels, and elastomers.… Show more

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Cited by 21 publications
(7 citation statements)
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“…The other one to increase toughness is to use other polyelectrolytes with equivalent opposite charges to form polyionic complexes with the original hydrogel matrix [46,47] . Huang et al prepared a tough double-network polyelectrolyte complex hydrogel by infiltrating zwitterionic poly(sulfobetaine acrylamide) (PSBAA) into an expanded poly(lysine acrylamide) (PLysAA) network and polymerizing under ultraviolet irradiation [47] . The best properties were found to be 1073 kPa for stress, 459% for strain, and 507 kPa for Young's modulus [47] .…”
Section: Toughnessmentioning
confidence: 99%
“…The other one to increase toughness is to use other polyelectrolytes with equivalent opposite charges to form polyionic complexes with the original hydrogel matrix [46,47] . Huang et al prepared a tough double-network polyelectrolyte complex hydrogel by infiltrating zwitterionic poly(sulfobetaine acrylamide) (PSBAA) into an expanded poly(lysine acrylamide) (PLysAA) network and polymerizing under ultraviolet irradiation [47] . The best properties were found to be 1073 kPa for stress, 459% for strain, and 507 kPa for Young's modulus [47] .…”
Section: Toughnessmentioning
confidence: 99%
“…The high release and absorption rate may be retained due to the saturation of the matrix, which occurs in the presence of the coexisting suspended and undissolved fraction of the API, because the solute flux can be proportionally enhanced by increasing the thermodynamic activity of the drug in the vehicle according to the Higuchi equation [ 6 ]. The prediction of an API solubility in a polymer without experimental work is very difficult or impossible, especially taking into consideration the diversity of the polymer chain constructions, even within a single chemical group [ 7 , 8 ].…”
Section: Introductionmentioning
confidence: 99%
“…The toughness of the hydrogels is another crucial character for their applications in tissue adhesive, espe-cially in the stomach, where they are more prone to violent deformation under physiological conditions. In the past decades, numerous tough hydrogels have been developed based on energy dissipation by breaking sacrificial bonds, such as double-network hydrogels [28][29][30], nanocomposite hydrogels [31][32][33], ionically coordinated hydrogels [34,35], and dual-crosslinked hydrogels [36][37][38]. These strategies have their own advantages and can be utilized after adjustment and specific optimization.…”
Section: Introductionmentioning
confidence: 99%