Polymer Topology Reinforced Synergistic Interactions among Nanoscale Molecular Clusters for Impact Resistance with Facile Processability and Recoverability

The intrinsic conflicts between mechanical performances and processability are main challenges to develop cost‐effective impact‐resistant materials from polymers and their composites. Herein, polyhedral oligomeric silsesquioxanes (POSSs) are integrated as side chains to the polymer backbones. The on...

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Bibliographic Details
Published in:Angewandte Chemie International Edition 2021-10, Vol.60 (41), p.22212-22218
Main Authors: Yin, Jia‐Fu, Xiao, Haiyan, Xu, Peidong, Yang, Junsheng, Fan, Zhiwei, Ke, Yubin, Ouyang, Xikai, Liu, Geng Xin, Sun, Tao Lin, Tang, Liqun, Cheng, Stephen Z. D., Yin, Panchao
Format: Article
Language:English
Subjects:
Chains (polymeric)
Energy dissipation
Impact resistance
Mechanical properties
Molecular clusters
Polyhedral oligomeric silsesquioxane
Polymer matrix composites
polymer nanocomposites
Polymers
Recoverability
Stretchability
Structural hierarchy
structure-property relationship
Topology
ultra-stretchability
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Summary:The intrinsic conflicts between mechanical performances and processability are main challenges to develop cost‐effective impact‐resistant materials from polymers and their composites. Herein, polyhedral oligomeric silsesquioxanes (POSSs) are integrated as side chains to the polymer backbones. The one‐dimension (1D) rigid topology imposes strong space confinements to realize synergistic interactions among POSS units, reinforcing the correlations among polymer chains. The afforded composites demonstrate unprecedented mechanical properties with ultra‐stretchability, high rate‐dependent strength, superior impact‐resistant capacity as well as feasible processability/recoverability. The hierarchical structures of the hybrid polymers enable the co‐existence of multiple dynamic relaxations that are responsible for fast energy dissipation and high mechanical strengths. The effective synergistic correlation strategy paves a new pathway for the design of advanced cluster‐based materials. Unique physical interaction facilitated by 1D topologies of molecular cluster‐integrated polymers is applied for the design of impact‐resistant materials with exceptional energy dissipation capability and strong rate‐dependent mechanical strengths, enabling the simultaneous achievement of promising impact resistance and processability/recoverability.
ISSN:1433-7851
1521-3773
DOI:10.1002/anie.202108196