Super-soft, firm, and strong elastomers toward replication of tissue viscoelastic response
Abstract
Polymeric networks are commonly used for various biomedical applications, from reconstructive surgery to wearable electronics. Some materials may be soft, firm, strong, or damping however, implementing all four properties into a single material to replicate the mechanical properties of tissue has been inaccessible. Herein, we present the A-g-B brush-like graft copolymer platform as a framework for fabrication of materials with independently tunable softness and firmness, capable of reaching a strength of ∼10 MPa on par with stress-supporting tissues such as blood vessel, muscle, and skin. These properties are maintained by architectural control, therefore diverse mechanical phenotypes are attainable for a variety of different chemistries. Utilizing this attribute, we demonstrate the capability of the A-g-B platform to enhance specific characteristics such as tackiness, damping, and moldability.
Citation
Dashtimoghadam, E., Maw, M., Keith, A. N., Vashahi, F., Kempkes, V., Gordievskaya, Y. D., Kramarenko, E. Y., Bersenev, E. A., Nikitina, E. A., Ivanov, D. A., Tian, Y., Dobrynin, A. V., Vatankhah-Varnosfaderani, M., & Sheiko, S. S. (2022). Super-soft, firm, and strong elastomers toward replication of tissue viscoelastic response. Materials Horizons, 9(12), 3022–3030. https://doi.org/10.1039/d2mh00844k