Self-Organization of Microlens Arrays Caused by the Spin-Coating-Assisted Hydrophobic Effect

Chen F.-C.; Huang W.-K.; Ko C.-J.

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Self-Organization of Microlens Arrays Caused by the Spin-Coating-Assisted Hydrophobic Effect

机译：自旋涂层辅助疏水效应引起的微透镜阵列的自组织

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A simple, low-cost, low-temperature, and shape-controllable approach has been demonstrated to fabricate polymer microlens arrays (MLAs). By using microcontact printing of the self-assembled monolayers and then spin coating, the microlenses were able to organize themselves on the patterned glass substrate. High-quality MLAs made of NOA65 prepolymer with lens-diameters of 50, 75, and 100 mum have been fabricated by this method. Lens shapes can be controlled by changing the spin rates of the prepolymer coating. Optical measurements have revealed an excellent light-collecting capability from the fabricated MLAs. It is anticipated that the technique will be ideally suited to low-cost and high-volume production

机译：已经证明了一种简单，低成本，低温且形状可控制的方法来制造聚合物微透镜阵列（MLA）。通过使用自组装单层的微接触印刷，然后旋涂，微透镜能够在图案化的玻璃基板上组织自身。通过这种方法，可以制造出由NOA65预聚物制成的高质量MLA，其透镜直径分别为50、75和100微米。可以通过改变预聚物涂层的旋转速率来控制镜片形状。光学测量表明，制造的MLA具有出色的聚光能力。预计该技术将非常适合低成本和大批量生产

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来源
《IEEE Photonics Technology Letters》 |2006年第2006期|p.2454-2456|共3页
作者
Chen F.-C.; Huang W.-K.; Ko C.-J.;
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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类光电子技术、激光技术;计量学;
关键词
microlenses; monolayers; optical arrays; optical fabrication; optical polymers; optical testing; self-assembly; soft lithography; spin coating; 100 mum; 50 mum; 75 mum; NOA65 prepolymer; hydrophobic effect; lens shapes; low-cost approach; low-temperature approach; microc;

机译：微透镜;单层;光学阵列;光学制造;光学聚合物;光学测试;自组装;软光刻;旋涂;100μm;50μm;75μm;NOA65预聚物;疏水作用;透镜形状;低成本;低成本-温度法;微生物;
入库时间 2022-08-17 13:21:20

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1. Directly fabricated multi-scale microlens arrays on a hydrophobic flat surface by a simple ink-jet printing technique [J] . Joo Yeon Kim, Karl Pfeiffer, Anja Voigt Journal of Materials Chemistry: An Interdisciplinary Journal dealing with Synthesis, Structures, Properties and Applications of Materials, Particulary Those Associated with Advanced Technology . 2012,第7期

机译：通过简单的喷墨印刷技术在疏水性平面上直接制造的多尺度微透镜阵列
2. Optimization and theoretical modeling of polymer microlens arrays fabricated with the hydrophobic effect [J] . Daniel M. Hartmann, Osman Kibar, Sadik C. Esener Applied optics . 2001,第16期

机译：具有疏水效应的聚合物微透镜阵列的优化和理论建模
3. Rapid fabrication of microlens arrays on PMMA substrate using a microlens array by rear-side picosecond laser swelling [J] . Optics and Lasers in Engineering . 2020,第Mara期

机译：使用微透镜阵列通过背面皮秒激光溶胀在PMMA基板上快速制造微透镜阵列
4. Constructing optical microsystems based on the hydrophobic effect: comparison of microlens arrays fabricated by different methods [C] . Zimmer, F., Moench, . 2003

机译：基于疏水效应构建光学微系统：不同方法制造的微透镜阵列的比较
5. Modeling of the Micro-Indentation Process to Create Microlens Array Features on a Mold [D] . Gundyal, Sumit Anand. 2019

机译：微压缩过程的建模，以在模具上创建微透镜阵列特征
6. Time-shared optical tweezers with a microlens array for dynamic microbead arrays [O] . Yoshio Tanaka, Shin-ichi Wakida 2015

机译：带有微透镜阵列的分时光镊用于动态微珠阵列
7. Control of Femtoliter Liquid on a Microlens: A Way to Flexible Dual-Microlens Arrays [O] . -1

机译：在微透镜上控制Femtoliter液体：柔性双微透镜阵列的方式

Self-Organization of Microlens Arrays Caused by the Spin-Coating-Assisted Hydrophobic Effect

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