2019
DOI: 10.1021/acsami.9b19431
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High-Resolution 3D Printing of Stretchable Hydrogel Structures Using Optical Projection Lithography

Abstract: Double-network (DN) hydrogels, with their unique combination of mechanical strength and toughness, have emerged as promising materials for soft robotics and tissue engineering. In the past decade, significant effort has been devoted to synthesizing DN hydrogels with high stretchability and toughness; however, shaping the DN hydrogels into complex and often necessary user-defined two-dimensional (2D) and three-dimensional (3D) geometries remains a fabrication challenge. Here, we report a new fabrication method … Show more

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Cited by 42 publications
(28 citation statements)
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“…Due to the presence of the dead zone, the photocrosslinked part is continuously drawn out of the sample holder and the advancing part creates suction forces that constantly draw liquid resin into the fabrication area. 17 This facilities continuous and fast printing of the structures, 17,18,24 unlike the traditional stereolithography approach that is a sequential and slow process of printing. 25,26 For instance, in this work, a printing speed of 1.44 m/h was obtained using PDMS-1, PDMS-2, and Teflon films, and a printing speed of 0.7 m/h was achieved with PU films.…”
Section: Discussionmentioning
confidence: 99%
See 1 more Smart Citation
“…Due to the presence of the dead zone, the photocrosslinked part is continuously drawn out of the sample holder and the advancing part creates suction forces that constantly draw liquid resin into the fabrication area. 17 This facilities continuous and fast printing of the structures, 17,18,24 unlike the traditional stereolithography approach that is a sequential and slow process of printing. 25,26 For instance, in this work, a printing speed of 1.44 m/h was obtained using PDMS-1, PDMS-2, and Teflon films, and a printing speed of 0.7 m/h was achieved with PU films.…”
Section: Discussionmentioning
confidence: 99%
“…However, the speed of fabrication is limited to a few millimeters per hour in the case of conventional stereolithography. 24 The ablation z-range for subtractive mode of printing is also fundamental to the HLP process. 18 Within the ablation z-range, material can be reliably removed using laser-based ablation and is important to determine the exact location of laser focus during the subtractive mode of fabrication.…”
Section: Discussionmentioning
confidence: 99%
“…is well reported and the latest technologies (e.g., optical projection lithography, bioprinting, microfluidics, and biopatterning) provide the methods to design scaffold with intricate structures for various biomedical applications. [71][72][73][74] However, the construction of functional tissues, still remains a challenge, since it relies on many parameters, which include polymer structure, cell-biomaterial interactions, encapsulated materials, etc. Thus, the designed material must offer properties (i.e., good mechanical strength, stability, and biocompatibility) that lead to cellular function in a natural manner.…”
Section: Crosslinking Strategiesmentioning
confidence: 99%
“…Controlling the spatial profile of light beams is critically important in various scientific and technological fields, including high‐resolution microscopy, [ 1 ] endoscopy, [ 2 ] lithography and additive manufacturing, [ 3 ] optical manipulation of micro‐objects, [ 4 ] wireless communication, [ 5 ] and computation. [ 6 ] Various methods have been reported to this aim, mostly based on diffractive elements and digital holography, which exploit arrays of micromirrors, [ 7 ] liquid crystal‐based modulators, [ 8 ] or metasurfaces.…”
Section: Introductionmentioning
confidence: 99%