Mechano- and Thermoresponsive Photoluminescent Supramolecular Polymer

Anna Lavrenova; Diederik W.R. Balkenende; Yoshimitsu Sagara; Stephen Schrettl; Yoan C. Simon; Christoph Weder

doi:10.1021/jacs.7b00342

Mechano- and Thermoresponsive Photoluminescent Supramolecular Polymer

Anna Lavrenova, Diederik W.R. Balkenende, Yoshimitsu Sagara, Stephen Schrettl, Yoan C. Simon, Christoph Weder

Research output: Contribution to journal › Article › peer-review

201 Scopus citations

Abstract

Mechanoresponsive luminescent (MRL) materials change their emission color upon application of external forces. Many dyes with MRL behavior are known, but they normally do not display useful mechanical properties. Here, we introduce a new approach to overcome this problem, which relies on combining MRL compounds with the concept of supramolecular polymerization. As a first embodiment, a cyano-substituted oligo(p-phenylenevinylene), whose MRL behavior is associated with different solid-state assemblies, was derivatized with two ureido-4-pyrimidinone groups, which support the formation of a dynamic supramolecular polymer. The new material displays the thermomechanical characteristics of a supramolecular polymer glass, offers three different emission colors in the solid state, and exhibits both MRL and thermoresponsive luminescent behavior.

Original language	English
Pages (from-to)	4302-4305
Number of pages	4
Journal	Journal of the American Chemical Society
Volume	139
Issue number	12
DOIs	https://doi.org/10.1021/jacs.7b00342
State	Published - 29 Mar 2017
Externally published	Yes

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title = "Mechano- and Thermoresponsive Photoluminescent Supramolecular Polymer",

abstract = "Mechanoresponsive luminescent (MRL) materials change their emission color upon application of external forces. Many dyes with MRL behavior are known, but they normally do not display useful mechanical properties. Here, we introduce a new approach to overcome this problem, which relies on combining MRL compounds with the concept of supramolecular polymerization. As a first embodiment, a cyano-substituted oligo(p-phenylenevinylene), whose MRL behavior is associated with different solid-state assemblies, was derivatized with two ureido-4-pyrimidinone groups, which support the formation of a dynamic supramolecular polymer. The new material displays the thermomechanical characteristics of a supramolecular polymer glass, offers three different emission colors in the solid state, and exhibits both MRL and thermoresponsive luminescent behavior.",

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T1 - Mechano- and Thermoresponsive Photoluminescent Supramolecular Polymer

AU - Lavrenova, Anna

AU - Balkenende, Diederik W.R.

AU - Sagara, Yoshimitsu

AU - Schrettl, Stephen

AU - Simon, Yoan C.

AU - Weder, Christoph

PY - 2017/3/29

Y1 - 2017/3/29

N2 - Mechanoresponsive luminescent (MRL) materials change their emission color upon application of external forces. Many dyes with MRL behavior are known, but they normally do not display useful mechanical properties. Here, we introduce a new approach to overcome this problem, which relies on combining MRL compounds with the concept of supramolecular polymerization. As a first embodiment, a cyano-substituted oligo(p-phenylenevinylene), whose MRL behavior is associated with different solid-state assemblies, was derivatized with two ureido-4-pyrimidinone groups, which support the formation of a dynamic supramolecular polymer. The new material displays the thermomechanical characteristics of a supramolecular polymer glass, offers three different emission colors in the solid state, and exhibits both MRL and thermoresponsive luminescent behavior.

AB - Mechanoresponsive luminescent (MRL) materials change their emission color upon application of external forces. Many dyes with MRL behavior are known, but they normally do not display useful mechanical properties. Here, we introduce a new approach to overcome this problem, which relies on combining MRL compounds with the concept of supramolecular polymerization. As a first embodiment, a cyano-substituted oligo(p-phenylenevinylene), whose MRL behavior is associated with different solid-state assemblies, was derivatized with two ureido-4-pyrimidinone groups, which support the formation of a dynamic supramolecular polymer. The new material displays the thermomechanical characteristics of a supramolecular polymer glass, offers three different emission colors in the solid state, and exhibits both MRL and thermoresponsive luminescent behavior.

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Mechano- and Thermoresponsive Photoluminescent Supramolecular Polymer

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