4.7 Article

3D printing of bioinspired hydrogel microstructures with programmable and complex shape deformations based on a digital micro-mirror device

期刊

OPTICS AND LASER TECHNOLOGY
卷 157, 期 -, 页码 -

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ELSEVIER SCI LTD
DOI: 10.1016/j.optlastec.2022.108759

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4D printing; Soft robot; Digital light processing; Bioinspired hydrogel microstructures

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This article proposes a programmable control scheme using single-material hydrogel deformation stimulated by unilateral water absorption. Various bionic deformation structures are fabricated, and a water-absorbing and swelling powered micro-manipulator is developed for controlled grasping and releasing of objects. The materials and stimulation modalities in the control scheme have good cytocompatibility and accessibility, suggesting great potential for applications in tissue engineering, bionic technology, and micro and nano fabrication.
4D printing, which enables programmable deformation of structures, has broadened the application of 3D printing. Nowadays, 4D printing is usually done by multi-material printing, in which different spatial locations are endowed with different properties. This approach, however, increases the difficulty of 3D printing. Here, we propose a programmable control of single-material hydrogel deformation stimulated by unilateral water ab-sorption. The control scheme includes structure control, gray value control, droplet distribution control, and hydrogel concentration control. Various bionic deformation structures are fabricated. Furthermore, a water -absorbing and swelling powered micro-manipulator is fabricated to achieve controlled grasping and releasing of objects. The materials and stimulation modalities in the proposed programmable control scheme have good cytocompatibility and are easily accessible. This suggests that the control scheme holds great potential for ap-plications in tissue engineering, bionic technology, and micro and nano fabrication.

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