Litcius/Paper detail

Mechanochromic Polyolefin Elastomers

Cosimo Micheletti, Luca Soldati, Christoph Weder, Andrea Pucci, Jess M. Clough

2024ACS Applied Polymer Materials21 citationsDOIOpen Access PDF

Abstract

The optical detection of mechanical strain and stress in polymers is a powerful and convenient approach for studying deformation processes in these materials and identifying damage prior to failure in crucial components. We show here that mechanochromic behavior can be introduced via a straightforward one-step process that involves the modification of a commercial polyolefin elastomer ( POE ) grafted with reactive anhydride groups with small amounts (<0.8 wt %) of mechanochromic cross-linkers ( Loop or sPDI ). These motifs contain excimer-forming perylene diimides ( PDIs ) and react with POE to afford mechanochromic polyolefin elastomers ( POE-Loop or POE-sPDI ). The Loop motif contains two excimer-forming PDI moieties that can form folded structures in which the two PDIs within the Loop motif interact with each other, i.e. intra- Loop, while sPDI contains one PDI that can only form interactions with PDIs of other sPDI probes. Upon mechanical deformation of POE-Loop and POE-sPDI, the dye aggregates disassemble and the ratio of monomer-to-excimer emission intensity increases. The data suggest that dye interactions between probes, i.e. inter- Loop or inter- sPDI, dominate the optical characteristics of both polymers.

Topics & Concepts

PolyolefinElastomerExcimerMaterials sciencePolymerMonomerPolymer chemistryPolymer scienceFluorescenceComposite materialOpticsLayer (electronics)PhysicsForce Microscopy Techniques and ApplicationsLuminescence and Fluorescent MaterialsMechanical and Optical Resonators