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Bicyclohexene-<i>peri</i>-naphthalenes: Scalable Synthesis, Diverse Functionalization, Efficient Polymerization, and Facile Mechanoactivation of Their Polymers

Jinghui Yang, Maggie Horst, Sabrina H. Werby, Lynette Cegelski, Noah Z. Burns, Yan Xia

2020Journal of the American Chemical Society74 citationsDOI

Abstract

Pursuing polymers that can transform from a nonconjugated to a conjugated state under mechanical stress to significantly change their properties, we developed a new generation of ladder-type mechanophore monomers, bicyclo[2.2.0]hex-5-ene-peri-naphthalene (BCH-Naph), that can be directly and efficiently polymerized by ring-opening metathesis polymerization (ROMP). BCH-Naphs can be synthesized in multigram quantities and functionalized with a wide range of electron-rich and electron-poor substituents, allowing tuning of the optoelectronic and physical properties of mechanically generated conjugated polymers. Efficient ROMP of BCH-Naphs yielded ultrahigh molecular weight polymechanophores with controlled MWs and low dispersity. The resulting poly(BCH-Naph)s can be mechanically activated into conjugated polymers using ultrasonication, grinding, and even simple stirring of the dilute solutions, leading to changes in absorption and fluorescence. Poly(BCH-Naph)s represent an attractive polymechanophore system to explore multifaceted mechanical response in solution and solid states, owing to the synthetic scalability, functional diversity, efficient polymerization, and facile mechanoactivation.

Topics & Concepts

ROMPPolymerizationChemistryConjugated systemPolymerDispersityMetathesisSurface modificationPolymer chemistryOrganic chemistryPhysical chemistryForce Microscopy Techniques and ApplicationsCellular Mechanics and InteractionsMechanical and Optical Resonators
Bicyclohexene-<i>peri</i>-naphthalenes: Scalable Synthesis, Diverse Functionalization, Efficient Polymerization, and Facile Mechanoactivation of Their Polymers | Litcius