电润湿驱动的光学虹膜微流控液滴阵列

Q3 Engineering

Advances in Optoelectronics Pub Date : 2018-02-01 DOI:10.1155/2018/1262947

J. Strassner, Carina Heisel, Dominic Palm, H. Fouckhardt

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引用次数: 4

摘要

由可调谐微光学中的一项任务发起，但不限于该应用，提出了一种具有3×3个子电池的直立模块中的微流体液滴阵列，并通过电润湿进行液滴驱动。每个子细胞都充满了一个（当然是透明的）水滴，作为一个可移动的虹膜，周围是不透明的黑色癸烷。每个子电池的尺寸为1×1 mm²，并包含2×2个液滴的方形排列位置。所有3×3液滴均通过电介质上的电润湿（EWOD）同步致动。液滴速度在130V（Vrms）下高达12mm/s，响应时间约为40ms。最小工作电压为30V。展示了液滴的水平和垂直移动。此外，对子电池的微小修改使我们能够利用每个液滴的扁平化。因此，不透明的癸烷流体样品可以覆盖每个水滴，并使每个子细胞不透明，从而产生开口直径恒定的可切换虹膜。该概念不需要任何机械移动部件或外部泵。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Microfluidic Droplet Array as Optical Irises Actuated via Electrowetting

Initiated by a task in tunable microoptics, but not limited to this application, a microfluidic droplet array in an upright standing module with 3 × 3 subcells and droplet actuation via electrowetting is presented. Each subcell is filled with a single (of course transparent) water droplet, serving as a movable iris, surrounded by opaque blackened decane. Each subcell measures 1 × 1 mm ² and incorporates 2 × 2 quadratically arranged positions for the droplet. All 3 × 3 droplets are actuated synchronously by electrowetting on dielectric (EWOD). The droplet speed is up to 12 mm/s at 130 V (Vrms) with response times of about 40 ms. Minimum operating voltage is 30 V. Horizontal and vertical movement of the droplets is demonstrated. Furthermore, a minor modification of the subcells allows us to exploit the flattening of each droplet. Hence, the opaque decane fluid sample can cover each water droplet and render each subcell opaque, resulting in switchable irises of constant opening diameter. The concept does not require any mechanically moving parts or external pumps.

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来源期刊

Advances in Optoelectronics ENGINEERING, ELECTRICAL & ELECTRONIC-

CiteScore

1.30

自引率

0.00%

发文量

期刊介绍： Advances in OptoElectronics is a peer-reviewed, open access journal that publishes original research articles as well as review articles in all areas of optoelectronics.