《Engineering hydrophobically associated hydrogels with rapid self-recovery and tunable mechanical properties using metal-ligand interactions》 was written by Panda, Prachishree; Dutta, Agniva; Ganguly, Debabrata; Chattopadhyay, Santanu; Das, Rajat K.. Recommanded Product: 4048-33-3 And the article was included in Journal of Applied Polymer Science in 2020. The article conveys some information:
In this contribution, hydrophobic association and metal-ligand coordination have been employed in a dual phys. crosslinking strategy to access hydrogels based on micellar copolymerization of acrylamide and a hydrophobic acrylic monomer (containing terpyridine (terpy) for metal-ligand interaction). The mech. properties of these hydrogels are strongly influenced by the thermodn. stability and kinetic lability of the metal-terpy crosslinks present in these materials. While the hydrogel tensile strength and stability on water exposure are enhanced by choosing stronger Fe2+-terpy crosslinks, the weaker and more kinetically labile Zn2+-terpy coordination bonds enable significantly higher energy dissipation under tensile loading and self-healing in the resultant hydrogels. In the part of experimental materials, we found many familiar compounds, such as 6-Aminohexan-1-ol(cas: 4048-33-3Recommanded Product: 4048-33-3)
6-Aminohexan-1-ol(cas: 4048-33-3) may be used along with glutaric acid to generate poly(ester amide)s with excellent film- and fiber forming properties. It can undergo cyclization over copper supported on γ-alumina and magnesia to form hexahydro-1H-azepine.Recommanded Product: 4048-33-3
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