机械发光材料实现了机械化学控制的原子转移自由基聚合和聚合物机械转导。
Mechanoluminescent Materials Enable Mechanochemically Controlled Atom Transfer Radical Polymerization and Polymer Mechanotransduction.
作者信息
Li Zexuan, Wang Zhenhua, Wang Chen, Li Wenxi, Fan Wenru, Zhao Ruoqing, Feng Haoyang, Peng Dengfeng, Huang Wei
机构信息
Frontiers Science Center for Flexible Electronics, Institute of Flexible Electronics, Northwestern Polytechnical University, Xi'an 710072, China.
School of Materials Science and Engineering, Northwestern Polytechnical University, Xi'an 710072, China.
出版信息
Research (Wash D C). 2023 Oct 3;6:0243. doi: 10.34133/research.0243. eCollection 2023.
Organic mechanophores have been widely adopted for polymer mechanotransduction. However, most examples of polymer mechanotransduction inevitably experience macromolecular chain rupture, and few of them mimic mussel's mechanochemical regeneration, a mechanically mediated process from functional units to functional materials in a controlled manner. In this paper, inorganic mechanoluminescent (ML) materials composed of CaZnOS-ZnS-SrZnOS: Mn were used as a mechanotransducer since it features both piezoelectricity and mechanolunimescence. The utilization of ML materials in polymerization enables both mechanochemically controlled radical polymerization and the synthesis of ML polymer composites. This procedure features a mechanochemically controlled manner for the design and synthesis of diverse mechanoresponsive polymer composites.
有机机械基团已被广泛应用于聚合物机械转导。然而,聚合物机械转导的大多数实例不可避免地会经历大分子链断裂,并且很少有实例能模拟贻贝的机械化学再生,即一个从功能单元到功能材料的以可控方式进行的机械介导过程。在本文中,由CaZnOS-ZnS-SrZnOS:Mn组成的无机机械发光(ML)材料被用作机械转导器,因为它兼具压电性和机械发光特性。ML材料在聚合反应中的应用实现了机械化学控制的自由基聚合以及ML聚合物复合材料的合成。这一过程为设计和合成各种机械响应性聚合物复合材料提供了一种机械化学控制的方式。
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