期刊
POLYMER CHEMISTRY
卷 12, 期 16, 页码 2421-2432出版社
ROYAL SOC CHEMISTRY
DOI: 10.1039/d1py00157d
关键词
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资金
- National Natural Science Foundation of China [U1862205, 51673110]
- Tsinghua University Scientific Research Project [20194180048]
Polyurethanes with covalent adaptive network (CAN) have attracted attention for their recyclability and self-healing properties. By adjusting the chemical structure of aliphatic isocyanates, the dynamics of the dynamic covalent network can be regulated, resulting in improved thermodynamic and kinetic feasibility. This method shows potential for developing self-healing and recyclable cross-linked polyurethanes with variable properties.
Polyurethanes with covalent adaptive network (CAN) have received widespread attention due to their recyclability and self-healing properties. The strategy of regulating the dynamic network rearrangement kinetics through varying the monomer structure is particularly interesting. Herein, based on the phenol-carbamate dynamic bond, we design a strategy to regulate the rearrangement kinetics of the dynamic covalent network by adjusting the chemical structure of aliphatic isocyanates with the same initial cross-linking degree. Temperature-varying FTIR and stress relaxation experiments prove the feasibility of this strategy from the perspective of thermodynamics and kinetics. For the studied isocyanates, greater steric hindrance or attachment of benzyl groups can promote the rearrangement of CAN. The two factors can reduce the relaxation time by one order of magnitude, and the relaxation activation energy can be reduced by over 20 kJ mol(-1). Regardless of the network rearrangement kinetics, all polyurethane samples show good self-healing and reprocessing performance. In addition, the mechanical properties and stability in a hot air environment also vary with the chemical structure of the isocyanates, e.g., the isocyanates with alicyclic structure can improve the thermal stability, and the mechanical properties are almost unchanged after 24 h of treatment at 100 degrees C under air conditions, while the other polyurethanes show obvious softening. The method to regulate the rearrangement kinetics of phenol-carbamate CAN via changing the chemical structure of the monomers would be beneficial for developing self-healing and recyclable cross-linked polyurethanes with variable properties synthesized from industrial chemical feedstocks.
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