Closed‐Loop Recycling of Vinylogous Urethane Vitrimers
Abstract: Devising energy‐efficient strategies for the depolymerization of plastics and the recovery of their structural components in high yield and purity is key to a circular plastics economy. Here, we report a case study in which we demonstrate that vinylogous urethane (VU) vitrimers synthesized from bis‐polyethylene glycol acetoacetates (aPEG) and tris (2‐aminoethyl) amine can be degraded by water at moderate temperature with almost quantitative recovery (≈98 %) of aPEG. The rate of depolymerization can be controlled by the temperature, amount of water, molecular weight of aPEG, and composition of the starting material. These last two parameters also allow one to tailor the mechanical properties of the final materials, and this was used to access soft, tough, and brittle vitrimers, respectively. The straightforward preparation and depolymerization of the aPEG‐based VU vitrimers are interesting elements for the design of polymer materials with enhanced closed‐loop recycling characteristics.
- Standort
-
Deutsche Nationalbibliothek Frankfurt am Main
- Umfang
-
Online-Ressource
- Sprache
-
Englisch
- Erschienen in
-
Closed‐Loop Recycling of Vinylogous Urethane Vitrimers ; day:31 ; month:07 ; year:2023 ; extent:11
Angewandte Chemie / International edition. International edition ; (31.07.2023) (gesamt 11)
- Urheber
- DOI
-
10.1002/anie.202306188
- URN
-
urn:nbn:de:101:1-2023073115231607347287
- Rechteinformation
-
Open Access; Der Zugriff auf das Objekt ist unbeschränkt möglich.
- Letzte Aktualisierung
-
14.08.2025, 11:01 MESZ
Datenpartner
Deutsche Nationalbibliothek. Bei Fragen zum Objekt wenden Sie sich bitte an den Datenpartner.
Beteiligte
- Ma, Youwei
- Jiang, Xuesong
- Shi, Zixing
- Berrocal, José Augusto
- Weder, Christoph
Ähnliche Objekte (12)
Closed‐Loop Recycling of Vinylogous Urethane Vitrimers
Closed-loop recycling of polyethylene-like materials
Closed‐Loop Recycling of Wearable Electronic Textiles
Quality deterioration factors of the plastics closed-loop recycling
Depolymerization mechanisms and closed-loop assessment in polyester waste recycling
Closed-loop functional optogenetic stimulation
Closed-Loop Simulationsmodell der Fahrzeugklimatisierung
New closed-loop insulin systems
Closed-loop superconducting materials discovery
Closed-Loop Liming and Tanning Systems
Coordination in Closed-Loop Supply Chains
Closed-loop recycling and fabrication of hydrophilic CNT films with high performance
Closed‐Loop Recycling of Vinylogous Urethane Vitrimers
Closed-loop recycling of polyethylene-like materials
Closed‐Loop Recycling of Wearable Electronic Textiles
Quality deterioration factors of the plastics closed-loop recycling
Depolymerization mechanisms and closed-loop assessment in polyester waste recycling
Closed-loop functional optogenetic stimulation
Closed-Loop Simulationsmodell der Fahrzeugklimatisierung
New closed-loop insulin systems
Closed-loop superconducting materials discovery
Closed-Loop Liming and Tanning Systems
Coordination in Closed-Loop Supply Chains
Closed-loop recycling and fabrication of hydrophilic CNT films with high performance
Closed‐Loop Recycling of Vinylogous Urethane Vitrimers
Closed-loop recycling of polyethylene-like materials
Closed‐Loop Recycling of Wearable Electronic Textiles
Quality deterioration factors of the plastics closed-loop recycling
Depolymerization mechanisms and closed-loop assessment in polyester waste recycling
Closed-loop functional optogenetic stimulation
Closed-Loop Simulationsmodell der Fahrzeugklimatisierung
New closed-loop insulin systems
Closed-loop superconducting materials discovery
Closed-Loop Liming and Tanning Systems
Coordination in Closed-Loop Supply Chains