Wang Yi-Fei, Yoshida Junya, Takeda Yasunori, Yoshida Ayako, Kaneko Takeru, Sekine Tomohito, Kumaki Daisuke, Tokito Shizuo
Research Center for Organic Electronics (ROEL), Yamagata University, 4-3-16, Jonan, Yonezawa 992-8510, Yamagata, Japan.
Nanomaterials (Basel). 2023 Dec 25;14(1):63. doi: 10.3390/nano14010063.
Porous structures and micropatterning surfaces play a crucial role in the development of highly sensitive force sensors. However, achieving these two conductive architectures typically requires the synthesis of complex materials and expensive manufacturing processes. In this study, we introduce a novel conductive composite film featuring a microporous/micropyramid hybrid conductive architecture, which is achieved through a straightforward process of materials mixing and one-step screen printing. By utilizing a deep eutectic solvent in the ink component, micropores are induced in the printed composite, while the mesh of the screen mask acts as a template, resulting in a micropyramid film surface. We have successfully realized highly sensitive flexible force sensors (0.15 kPa) with multifunctional capabilities for perceiving normal force and shear force.
多孔结构和微图案化表面在高灵敏度力传感器的开发中起着至关重要的作用。然而,实现这两种导电结构通常需要合成复杂的材料和昂贵的制造工艺。在本研究中,我们引入了一种具有微孔/微金字塔混合导电结构的新型导电复合膜,该结构通过简单的材料混合过程和一步丝网印刷实现。通过在油墨成分中使用深共熔溶剂,在印刷的复合材料中诱导出微孔,而丝网掩膜的网格则充当模板,从而形成微金字塔膜表面。我们已经成功实现了具有感知法向力和剪切力多功能能力的高灵敏度柔性力传感器(0.15 kPa)。
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