材料科学
制作
烧结
选择性激光烧结
聚酰亚胺
激光器
聚合物
储能
复合材料
3D打印
脉冲激光器
纳米技术
能量密度
作者
Muxuan Yang,Jinyu Bu,Pushkar N Dalal,Leyi Deng,Mingcheng Liu,Laura Brady,Weinan Xu
摘要
Selective laser sintering (SLS) is an emerging technology for the fabrication of 3D complex polymeric structures by sintering polymer microparticles. But its application is constrained by the limited material selection and functionality of the polymer microparticles. To address this major challenge, here we creatively integrate SLS with polyimide and its hybrid microparticles, so that concurrent SLS and graphitization enables the precise fabrication of 2D/3D patterned and conductive graphene structures. By chemically modifying the polyimide microparticles with metal salt precursors, 3D graphene-FeOx hybrid structures with precisely controlled geometry can be achieved after SLS. Furthermore, by sequential SLS with two types of polymer microparticles, such as thermoplastic polyurethane and polyimide, 3D soft and flexible structures with a conductive graphene coating can be conveniently fabricated. We also demonstrate promising applications of such 2D/3D hybrid structures in energy storage and strain sensors. The electrochemical capacitance or electrical responses can be widely tuned by controlling the SLS fabrication process and parameters. Our approach provides a new and versatile platform for the advanced manufacturing of soft and conductive 2D/3D structures with promising applications in energy and electronics.
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