2017
DOI: 10.1021/acsami.7b08636
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Transparent, Healable Elastomers with High Mechanical Strength and Elasticity Derived from Hydrogen-Bonded Polymer Complexes

Abstract: It is challenging to develop healable elastomers with combined high mechanical strength and good elasticity. Herein, a simple strategy to develop high-performance elastomers that integrate high mechanical strength, enormous stretchability, good resilience, and healability is reported. Through simply complexing poly(acrylic acid) and poly(ethylene oxide) based on hydrogen-bonding interactions, transparent composite materials that perform as elastomers are generated. The as-prepared elastomers exhibit mechanical… Show more

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Cited by 153 publications
(126 citation statements)
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“…Notably, these healable hydrated or elastic polymer complex-based materials are all soft and deformable with tensile strengths lower than 10 MPa. 25,26,63,65 In our present work, we demonstrate that the highly rigid PAA-PAH supramolecular composite (σ = 67 MPa and E = 2.0 GPa) could be repaired by simply employing the PAA-PAH coacervate as the healing agent under ambient conditions (25 o C; 40% relative humidity). The healing strategy reported here provides a supplementary method for a simple repair of highly rigid materials that comprise noncovalently bonded components.…”
Section: Introductionmentioning
confidence: 57%
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“…Notably, these healable hydrated or elastic polymer complex-based materials are all soft and deformable with tensile strengths lower than 10 MPa. 25,26,63,65 In our present work, we demonstrate that the highly rigid PAA-PAH supramolecular composite (σ = 67 MPa and E = 2.0 GPa) could be repaired by simply employing the PAA-PAH coacervate as the healing agent under ambient conditions (25 o C; 40% relative humidity). The healing strategy reported here provides a supplementary method for a simple repair of highly rigid materials that comprise noncovalently bonded components.…”
Section: Introductionmentioning
confidence: 57%
“…The PAA-PEO elastomer was prepared according to our previous report. 63 Briefly, aqueous solutions of PAA (M w of 450,000, 4 mg mL −1 , pH 2.5) and PEO (M w of 600,000, 4 mg mL −1 , pH 2.5) were mixed under stirring at the PAA:PEO volume ratio of 1.6∶1.0, the feed monomer molar ratio between PAA and PEO is 1.0∶1.0. The precipitates of PAA-PEO complexes was formed instantaneously under our established ambient conditions at room temperature, and the resultant precipitate was collected by centrifugation, followed by compression molding for 2 days via two pieces of glass slides at a pressure of ∼ 15 kPa.…”
Section: Preparation Of the Paa-peo Elastomermentioning
confidence: 99%
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“…In recent decades, scientific interest in intrinsic self‐healing materials has increased tremendously because of their enhanced reliability and their ability to be healed multiple times . The potential applications of these materials can be found in thermoreversible rubbers, thermoplastic elastomers, mechanically enhanced hydrogels, electrically conductive materials, semiconducting polymers for organic transistors, electronic skins, and so forth. Dynamic covalent bonds have been frequently used for the fabrication of mechanically improved self‐healing polymer composites because they can integrate the robustness of covalent bonds and the intrinsic reversibility of noncovalent physical interactions .…”
Section: Introductionmentioning
confidence: 99%