Two-photon polymerization lithography for imaging optics

平版印刷术 双光子激发显微术 聚合 光学 材料科学 光子 物理 光电子学 聚合物 复合材料 荧光
作者
Hao Wang,Chengfeng Pan,Chi Li,Kishan S. Menghrajani,Markus A. Schmidt,Aoling Li,Fan Fu,Yu Zhou,Wang Zhang,Hongtao Wang,Parvathi Nair Suseela Nair,John You En Chan,Tomohiro Mori,Yueqiang Hu,Guangwei Hu,Stefan A. Maier,Haoran Ren,Huigao Duan,Joel K. W. Yang
出处
期刊:International journal of extreme manufacturing [IOP Publishing]
卷期号:6 (4): 042002-042002 被引量:62
标识
DOI:10.1088/2631-7990/ad35fe
摘要

Abstract Optical imaging systems have greatly extended human visual capabilities, enabling the observation and understanding of diverse phenomena. Imaging technologies span a broad spectrum of wavelengths from x-ray to radio frequencies and impact research activities and our daily lives. Traditional glass lenses are fabricated through a series of complex processes, while polymers offer versatility and ease of production. However, modern applications often require complex lens assemblies, driving the need for miniaturization and advanced designs with micro- and nanoscale features to surpass the capabilities of traditional fabrication methods. Three-dimensional (3D) printing, or additive manufacturing, presents a solution to these challenges with benefits of rapid prototyping, customized geometries, and efficient production, particularly suited for miniaturized optical imaging devices. Various 3D printing methods have demonstrated advantages over traditional counterparts, yet challenges remain in achieving nanoscale resolutions. Two-photon polymerization lithography (TPL), a nanoscale 3D printing technique, enables the fabrication of intricate structures beyond the optical diffraction limit via the nonlinear process of two-photon absorption within liquid resin. It offers unprecedented abilities, e.g. alignment-free fabrication, micro- and nanoscale capabilities, and rapid prototyping of almost arbitrary complex 3D nanostructures. In this review, we emphasize the importance of the criteria for optical performance evaluation of imaging devices, discuss material properties relevant to TPL, fabrication techniques, and highlight the application of TPL in optical imaging. As the first panoramic review on this topic, it will equip researchers with foundational knowledge and recent advancements of TPL for imaging optics, promoting a deeper understanding of the field. By leveraging on its high-resolution capability, extensive material range, and true 3D processing, alongside advances in materials, fabrication, and design, we envisage disruptive solutions to current challenges and a promising incorporation of TPL in future optical imaging applications.
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