Archivio Istituzionale della RicercaIn alignment with circular economy principles, we have developed a reprocessable, self-reporting thermoset based on polyethylene. The self-reporting feature is achieved using a mechanophore as the crosslinking agent, which reversibly responds to applied stress while being quenched by thermal stimuli. This same heat trigger also facilitates the material's self-healing capability, ensuring efficient recovery and reusability. The chosen mechanophore is rhodamine, a widely recognized fluorescent dye known for its excellent stability, high absorption coefficient, and long-wavelength absorption and emission. For the covalent reversible bonds, we employ silylether exchange chemistry, as it enables the incorporation of crosslinker units without necessitating modifications to the polymer backbone.
Dynamically crosslinked polyethylene-like materials with reversible self-reporting properties / Torri, Alessandro; Paravidino, Chiara; Giovanardi, Gabriele; Rispoli, Francesco; Moroni, Fabrizio; Pedrini, Alessandro; Dalcanale, Enrico; Fina, Alberto; Pinalli, Roberta. - In: MATERIALS HORIZONS. - ISSN 2051-6347. - ELETTRONICO. - 12:12(2025), pp. 4396-4402. [10.1039/d4mh01885k]
Dynamically crosslinked polyethylene-like materials with reversible self-reporting properties
Paravidino, Chiara;Fina, Alberto;
2025
Abstract
In alignment with circular economy principles, we have developed a reprocessable, self-reporting thermoset based on polyethylene. The self-reporting feature is achieved using a mechanophore as the crosslinking agent, which reversibly responds to applied stress while being quenched by thermal stimuli. This same heat trigger also facilitates the material's self-healing capability, ensuring efficient recovery and reusability. The chosen mechanophore is rhodamine, a widely recognized fluorescent dye known for its excellent stability, high absorption coefficient, and long-wavelength absorption and emission. For the covalent reversible bonds, we employ silylether exchange chemistry, as it enables the incorporation of crosslinker units without necessitating modifications to the polymer backbone.
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https://hdl.handle.net/11583/3007027