Ian A Coates, William Pan, Max A Saccone, Gabriel Lipkowitz, Dan Ilyin, Madison M Driskill, Maria T Dulay, Curtis W Frank, Eric S G Shaqfeh, Joseph M DeSimone
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引用次数: 0
摘要
立体光刻技术能够通过光诱导聚合制造三维(3D)自由形态结构。然而,滞留在负空间(如微流道或空隙)中的树脂内的紫外线剂量累积会导致这些负空间意外关闭,即所谓的过固化。我们报告了利用注射连续液体界面生产技术,用新鲜树脂连续置换前层负空间中可能过固化的树脂,以减轻 Z 轴分辨率的损失。我们展示了分辨 50 微米微通道的能力,打破了树脂特性与负空间分辨率之间的历史关系。利用这种方法,我们制造出了概念验证型三维自由形态微流控器件,提高了器件材料选择和所产生特性的设计自由度。
High-resolution stereolithography: Negative spaces enabled by control of fluid mechanics.
Stereolithography enables the fabrication of three-dimensional (3D) freeform structures via light-induced polymerization. However, the accumulation of ultraviolet dose within resin trapped in negative spaces, such as microfluidic channels or voids, can result in the unintended closing, referred to as overcuring, of these negative spaces. We report the use of injection continuous liquid interface production to continuously displace resin at risk of overcuring in negative spaces created in previous layers with fresh resin to mitigate the loss of Z-axis resolution. We demonstrate the ability to resolve 50-μm microchannels, breaking the historical relationship between resin properties and negative space resolution. With this approach, we fabricated proof-of-concept 3D free-form microfluidic devices with improved design freedom over device material selection and resulting properties.
期刊介绍:
The Proceedings of the National Academy of Sciences (PNAS), a peer-reviewed journal of the National Academy of Sciences (NAS), serves as an authoritative source for high-impact, original research across the biological, physical, and social sciences. With a global scope, the journal welcomes submissions from researchers worldwide, making it an inclusive platform for advancing scientific knowledge.
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