AS
A. Susa
8 records found
1
Covalent reversible chemistries give rise to polymers with reasonable mechanical properties yet require external stimuli to heal. Oppositely, supramolecular systems can heal autonomously, but their properties are still far away from most of those set by application requirements.
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We present a systematic study of the role of the aromatic dianhydride structure on the self-healing behavior of dimer diamine-based polyimides. By means of solid-state NMR and rheology, we studied the molecular and microscale dynamics of four polyimides comprising the same alipha
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In this work we report the effect of the hard block dianhydride structure on the overall properties of partially bio-based semi-aromatic polyimides. For the study, four polyimides were synthesized using aliphatic fatty dimer diamine (DD1) as the soft block and four different comm
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Correction to
Imaging the Molecular Motions of Autonomous Repair in a Self-Healing Polymer (Advanced Materials, (2017), 29, 26, (1701017), 10.1002/adma.201701017)
On page 5 of 6 (Experimental Section, subsection Laser Speckle Imaging), the sentence “The LSI method is based on the multiple scattering of light, essentially the imaging equivalent of Ddffusive Wwve Ssectroscopy.[27]” was typeset incorrectly during production of the article, an
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Self-healing polymers can significantly extend the service life of materials and structures by autonomously repairing damage. Intrinsic healing holds great promise as a design strategy to mitigate the risks of damage by delaying or preventing catastrophic failure. However, experi
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Traditional polyetherimides (PEIs) are commonly synthesized from an aromatic diamine and an aromatic dianhydride (e.g., 3,4′-oxidianiline (ODA) and 4,4′-oxidiphtalic anhydride (ODPA)) leading to the imide linkage and outstanding chemical, thermal and mechanical properties yet lac
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