Antioxidant Silicone Elastomers without Covalent Cross-Links Journal Articles

abstract

• Improved sustainability is associated with elastomers that readily breakdown in the environment at end of life and, as importantly, that can be reprocessed/reused long before end of life arises. We report the preparation of silicone elastomers that possess both thermoplasticity-reprocessability-and antioxidant activity. A combination of ionic and H-bonding links natural phenolic antioxidants, including catechol, pyrogallol, tannic acid, and others, to telechelic aminoalkylsilicones. The mechanical properties of the elastomers, including their processability, are intimately linked to the ratio of [ArOH]/[H2NR] that was found to be optimal when the ratio exceeded 1:1.

authors

• Tamim, Khaled
• Gale, Cody B
• Silverthorne, Kaitlyn EC
• Lu, Guanhua
• Iao, Cheok Hang
• Brook, Michael Adrian

status

• published 

publication date

• May 8, 2023

has subject area

• 0301 Analytical Chemistry (FoR)
• 0502 Environmental Science and Management (FoR)
• 0904 Chemical Engineering (FoR)

published in

• ACS Sustainable Chemistry & Engineering  Journal

keywords

• Chemistry
• Chemistry, Multidisciplinary
• DEGRADATION
• Engineering
• Engineering, Chemical
• Green & Sustainable Science & Technology
• POLYMER
• Physical Sciences
• STABILIZATION
• Science & Technology
• Science & Technology - Other Topics
• Technology
• dynamic cross-linking
• ionic linkers
• natural antioxidants
• phenolic compounds
• silicones

Digital Object Identifier (DOI)

• 10.1021/acssuschemeng.3c00103

start page

• 7062

end page

• 7071

volume

• 11

issue

• 18