纳米光刻
材料科学
纳米技术
纳米尺度
生物分子
生物传感器
制作
医学
病理
替代医学
作者
Caizhi Liao,Alain Wuethrich,Matt Trau
标识
DOI:10.1016/j.apmt.2020.100635
摘要
Functional three-dimensional (3D) microscopic and nanoscopic structures have the potential to significantly drive the development of innovative bioapplications. As the only 3D prototyping technique for precise and controllable additive manufacturing of sub-100 nm structures, femtosecond laser based nanolithography including two-photon polymerization (TPP) has attracted significant interest. Central to the TPP fabrication process is the cross-linking of the photosensitive material that builds the construct of the functional 3D micro/nanostructures. Driven by the development of biocompatible photosensitive materials for TPP fabrication, significant progress has been achieved in cell engineering, tissue engineering, drug delivery, microfluidics, and biosensing. This review features a comprehensive and material-focused account on the latest advancements in TPP nanolithography for bioapplications for the first time. After a brief introduction of TPP, the review discusses critically photosensitive materials including SU-8, IP resists, PEG-based hydrogels, protein-based biomolecules, hybrid inorganic–organic materials, and others. Finally, current achievements, fabrication limitations, and opportunities for the advancement of TPP-based functional 3D microscopic and nanoscopic materials are summarised.
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