R. Tabassian, Araz Rajabi-Abhari, Manmatha Mahato, H. Yoo, Hong Yeon Yoon, Jeong Young Park, Il‐Kwon Oh
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引用次数: 0
摘要
金属有机框架(MOFs)是一种具有工程化学结构的纳米材料,具有卓越的性能。然而,其有限的成膜能力阻碍了它们与三电纳米发电机(TENGs)的集成。本研究提出了一种简单而有效的解决方案来克服这一挑战,即采用电纺丝技术将沸石咪唑酸框架(ZIF-8)整合到易于使用的纳米纤维垫中。ZIF-8 具有高表面电位、独特的立方体结构和简便的制造工艺,使其成为 TENG 的理想材料。在电纺丝溶液中加入 ZIF-8,可显著提高纳米纤维的电位。它使电纺纤维的形状、形态和粗糙度发生了显著变化,从而提高了 TENG 的整体性能。研究结果表明,利用基于 ZIF 的电纺毡作为三正极材料,可使电极之间的电荷转移增加 100%以上。利用基于 MOF 的纳米纤维垫,本研究还介绍了一种新型旋转式 TENG,该 TENG 的工作模式称为滚动模式。拟议的滚动系统能可靠地产生电荷,这表明这种 TENG 运行模式是接触/分离或滑动等传统 TENG 模式的绝佳替代方案,因为传统 TENG 模式会因剧烈的物理冲击或摩擦而产生高水平的机械应力。
Metal‐organic framework‐based nanofibrous film for two different modes of triboelectric nanogenerators
Metal‐organic frameworks (MOFs) are nanomaterials with engineered chemical structures, offering remarkable properties. However, their limited film‐formation capability hinders their integration into triboelectric nanogenerators (TENGs). This study proposes a simple yet effective solution to overcome this challenge by employing electrospinning techniques to integrate the zeolitic imidazolate framework (ZIF‐8) into an easy‐to‐use nanofibrous mat. ZIF‐8 has high surface potential, a unique cubical structure, and an easy fabrication process that makes it an ideal material for TENGs. By incorporating ZIF‐8 into the electrospinning solution, significant improvements are achieved in the electropositivity of the resulting nanofibers. It leads to notable changes in the shape, morphology, and roughness of electrospun fibers, consequently enhancing the overall performance of the TENG. The results indicate that utilizing the ZIF‐based electrospun mat as a tribo‐positive material can increase transferred charges between electrodes by more than 100%. Utilizing the MOF‐based nanofibrous mat, this study also introduces a novel rotary TENG that works based on a mode of TENG operation called rolling mode. The reliable charge generation by the proposed rolling system reveals that this mode of TENG operation could be a superb alternative for traditional TENG modes, like contact/separation or sliding, which cause high levels of mechanical stress due to harsh physical impact or friction.