Chameleon-like Elastomers with Molecularly Encoded Strain-adaptive Stiffening and Coloration

Overview

Journal Science

Specialty Science

Date 2018 Mar 31

PMID 29599240

Citations 57

Authors

Mohammad Vatankhah-Varnosfaderani

Andrew N Keith

Yidan Cong

Heyi Liang

Martin Rosenthal

Michael Sztucki

Charles Clair

Sergei Magonov

Dimitri A Ivanov

Andrey V Dobrynin

Sergei S Sheiko

Affiliations

Soon will be listed here.

Abstract

Active camouflage is widely recognized as a soft-tissue feature, and yet the ability to integrate adaptive coloration and tissuelike mechanical properties into synthetic materials remains elusive. We provide a solution to this problem by uniting these functions in moldable elastomers through the self-assembly of linear-bottlebrush-linear triblock copolymers. Microphase separation of the architecturally distinct blocks results in physically cross-linked networks that display vibrant color, extreme softness, and intense strain stiffening on par with that of skin tissue. Each of these functional properties is regulated by the structure of one macromolecule, without the need for chemical cross-linking or additives. These materials remain stable under conditions characteristic of internal bodily environments and under ambient conditions, neither swelling in bodily fluids nor drying when exposed to air.

Citing Articles

Tunable pure interference colors of 2D titania liquid crystal with ultrasensitive electroresponse.

Gong R, Tian S, Lei Y, Zhang Z, Xu Y, Lyu R Sci Adv. 2025; 11(8):eads0034.

PMID: 39970223 PMC: 11838015. DOI: 10.1126/sciadv.ads0034.

Revealing Long-Range Order in Brush-like Graft Copolymers Through In Situ Measurements of X-Ray Scattering During Deformation.

Umarov A, Nikitina E, Piryazev A, Moutsios I, Rosenthal M, Kurbatov A Polymers (Basel). 2024; 16(23).

PMID: 39684055 PMC: 11644117. DOI: 10.3390/polym16233309.

Carbosiloxane Bottlebrush Networks for Enhanced Performance and Recyclability.

Eom T, Getty P, Czuczola M, Bates C, Hawker C Macromolecules. 2024; 57(22):10522-10529.

PMID: 39619247 PMC: 11603783. DOI: 10.1021/acs.macromol.4c02147.

A universal strategy for decoupling stiffness and extensibility of polymer networks.

Huang B, Nian S, Cai L Sci Adv. 2024; 10(48):eadq3080.

PMID: 39602542 PMC: 11601196. DOI: 10.1126/sciadv.adq3080.

Crowding for Confinement: Reversible Isomerization of First-Generation Donor-Acceptor Stenhouse Adduct Derivatives in Water Modulated by Thermoresponsive Dendritic Macromolecules.

Zhang J, Ma Q, Wang H, Zhang P, Su X, Zhang A Molecules. 2024; 29(21).

PMID: 39519696 PMC: 11547267. DOI: 10.3390/molecules29215055.