Concave Microlens(凹面微透镜)研究综述
Concave Microlens 凹面微透镜 - Plasma treatment on PVA patterned with microtopographies was also studied, with only the concave microlenses topography demonstrating a significant increase in platelet adhesion. [1]还研究了对带有显微形貌的 PVA 进行等离子体处理,只有凹形微透镜形貌显示血小板粘附显着增加。 [1]
concave microlens array 凹面微透镜阵列
In this work, we proposed a concave microlens array (MLA) on an encapsulation layer to enhance the angular color uniformity (ACU) of color-mixed light-emitting diodes (cm-LEDs). [1] An ultra-smooth diamond concave microlens array was realized using a chemical reflow process assisted by dry etching technique, which has a great performance for homogenization of light beam. [2] A rapid and single-step method for the fabrication of a zinc selenide (ZnSe) concave microlens array through the high-speed line-scanning of a femtosecond laser pulse is presented. [3] Flexible concave microlens arrays with a well-controlled curvature can be fabricated straightforwardly using a leaky dielectric via the electrowetting-on-dielectrics phenomenon for potential miniaturized and high-performance flexible optical micro-devices. [4] We develop a facile, fast, and cost-effective method based on the electrowetting effect to fabricate concave microlens arrays (MLA) with a tunable height-to-radius ratio, namely aspect ratio (AR). [5]在这项工作中,我们提出了一种在封装层上的凹形微透镜阵列 (MLA),以增强混色发光二极管 (cm-LED) 的角度颜色均匀性 (ACU)。 [1] 采用化学回流工艺,辅以干法刻蚀技术,实现了超光滑的金刚石凹面微透镜阵列,具有很好的光束均匀化性能。 [2] 提出了一种通过飞秒激光脉冲的高速线扫描制造硒化锌 (ZnSe) 凹面微透镜阵列的快速单步方法。 [3] 具有良好控制曲率的柔性凹面微透镜阵列可以通过电润湿电介质现象直接使用泄漏电介质制造,用于潜在的小型化和高性能柔性光学微器件。 [4] 我们开发了一种基于电润湿效应的简便、快速且具有成本效益的方法,以制造具有可调高度与半径比(即纵横比(AR))的凹面微透镜阵列(MLA)。 [5]