Hybrid monomer design for unifying conflicting polymerizability, recyclability, and performance properties

Autor: Laura Falivene, Zi Chen Li, Changxia Shi, Luigi Cavallo, Eugene Y.-X. Chen, Lucia Caporaso
Rok vydání: 2021
Předmět:
Zdroj: Chem. 7:670-685
ISSN: 2451-9294
DOI: 10.1016/j.chempr.2021.02.003
Popis: Summary Intrinsically recyclable polymers represent a circular economy approach to address plastics problems. However, the design of such circular polymers is challenged by unyielding trade-offs between the monomer’s polymerizability and the polymer’s depolymerizability and performance properties. Here, we introduce a hybrid monomer design strategy that synergistically couples a high ceiling temperature (HCT) sub-structure for high polymerizability and performance properties with a low ceiling temperature (LCT) sub-structure for high depolymerizability and recyclability within the same monomer structure. Thus, structural hybridization between HCT e-caprolactone and LCT γ-butyrolactone led to an offspring [3.2.1]bicyclic lactone, which exhibits both high polymerizability and depolymerizability, otherwise conflicting properties in a typical monomer. The resulting polymer becomes a high-performance material, and thermal transition temperatures are ∼200°C higher and tensile modulus 10× higher than its parent polymers. These results demonstrate that the HCT/LCT hybrid monomer strategy is a powerful approach for designing circular polymers where conflicting properties must be exploited and unified.
Databáze: OpenAIRE
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