3D printing of dual cross-linked hydrogel for fingerprint-like iontronic pressure sensor

自愈水凝胶 材料科学 制作 纳米技术 压力传感器 3D打印 微流控 可伸缩电子设备 印刷电子产品 柔性电子器件 墨水池 数码产品 复合材料 机械工程 电气工程 病理 工程类 高分子化学 替代医学 医学
作者
Honghao Yan,Jun Zhou,Chengyun Wang,Huaqiang Gong,Wu Liu,Weihong Cen,Guixin Yuan,Yu Long
出处
期刊:Smart Materials and Structures [IOP Publishing]
卷期号:31 (1): 015019-015019 被引量:35
标识
DOI:10.1088/1361-665x/ac383c
摘要

Abstract Hydrogels with intrinsic high stretchability and flexibility are extremely attractive for soft electronics. However, the existing complicated and laborious methods (such as mold curing) to fabricate microstructured hydrogel (MH) still limit the development of hydrogel-based sensors for flexible devices. Herein, we use digital light processing 3D printing technology to rapidly construct double-network (DN) ionic conductive hydrogel, and then design and print fingerprint-like MH film to manufacture an iontronic pressure sensor. In particular, the DN hydrogel consists of acrylamide/acrylic acid to form a covalently cross-linked network, and magnesium chloride is introduced to form an ionic cross-linked physical network in the hydrogel. The printability (with resolution 150 μ m) and mechanical property tunability of DN hydrogel enable the convenient fabrication of sensors. With the biomimetic fingerprint MH film, the iontronic pressure sensor not only has a high sensitivity (0.06 kPa −1 ), but also has a large detection range (26 Pa–70 kPa) and good stability (200 cycles of pressure loading). We demonstrated that our sensor can be applied to realize tactile sensing in a prosthetic application and detect human motion. With the easy strategy of constructing DN hydrogel with microstructures by 3D printing technology, hydrogel-based sensors are anticipated to be employed in more smart electronics.
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