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3D Printing of a PDMS Cylindrical Microlens Array with 100% Fill-Factor

Houchao Zhang, Tianyu Qi, Xiaoyang Zhu, Longjian Zhou, Zhenghao Li, Yuan‐Fang Zhang, Wenchao Yang, Jianjun Yang, Zilong Peng, Guangming Zhang, Fei Wang, Pengfei Guo, Hongbo Lan

2021ACS Applied Materials & Interfaces46 citationsDOI

Abstract

Cylindrical microlens arrays (CMLAs) play a key role in many optoelectronic devices, and 100% fill-factor CMLAs also have the advantage of improving the signal-to-noise ratio and avoiding stray-light effects. However, the existing preparation technologies are complicated and costly, which are not suitable for mass production. Herein, we propose a simple, efficient, and low-cost manufacturing method for CMLAs with a high fill-factor via the electric-field-driven (EFD) microscale 3D printing of polydimethylsiloxane (PDMS). By adjusting the printing parameters, the profile and the fill-factor of the CMLAs can be controlled to improve their optical performance. The optical performance test results show that the printed PDMS CMLAs have good image-projecting and light-diffraction properties. Using the two printing modes of this EFD microscale 3D-printing technology, a cylindrical dual-microlens array with a double-focusing function is simply prepared. At the same time, we print a series of specially shaped microlenses, proving the flexible manufacturing capabilities of this technology. The results show that the prepared CMLAs have good morphology and optical properties. The proposed method may provide a viable route for manufacturing large-area CMLAs with 100% fill-factor in a very simple, efficient, and low-cost manner.

Topics & Concepts

MicrolensMicroscale chemistryMaterials sciencePolydimethylsiloxane3D printingSmall form factorOptoelectronicsTransmittanceOpticsNanotechnologyComputer scienceLens (geology)Composite materialPhysicsMathematics educationMathematicsOperating systemAdvanced optical system designElectrowetting and Microfluidic TechnologiesPhotochromic and Fluorescence Chemistry
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