We show that a microfluidic flow focusing drop maker can be synchronized to a surface acoustic waves (SAW) triggered by an external electric signal. In this way droplet rate and volume can be controlled over a wide range of values in real time. Using SAW, the drop formation rate of a regularly operating water in oil drop maker without SAW can be increased by acoustically enforcing the drop pinch-off and thereby reducing the volume. Drop makers of square cross-sections (w = h = 30 µm, with width w and height h) that produce large drops of length l = 10 w can be triggered to produce drops as short as l ~ 2w, approaching the geometical limit l = w without changing the flow rates. Unlike devices that adjust drop size by changing the flow rates the acoustic dropmaker has very short transients allowing to adjust the size of every single drop. This allows us to produce custom made emulsions with a defined size distribution as demonstrated here not only for a monodisperse emulsion but also for binary emulsions with drops of alternating size. Moreover, we show that the robustness and monodispersity of our devices is enhanced compared to purely flow driven drop makers in the absence of acoustic synchronization.
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机译:我们表明,微流体流聚焦滴制造商可以同步到由外部电信号触发的表面声波(SAW)。通过这种方式,可以在很大范围的数值上实时控制液滴的速率和体积。通过使用声表面波,可以通过声学方式强制执行液滴收缩,从而减小体积,从而提高不带声表面波的滴油机中正常运行的水的滴形成率。可以触发产生横截面长度为l = 10 w的大液滴的方形截面的液滴制造器(w = h = 30μm,宽度w和高度h),从而产生短至l〜2w的液滴,接近几何极限= w而无需更改流速。与通过改变流速来调节液滴大小的设备不同,声学液滴发生器的瞬变非常短,可以调节每个液滴的大小。这使我们能够生产具有确定尺寸分布的定制乳液,如此处所示,不仅适用于单分散乳液,还适用于液滴尺寸可变的二元乳液。此外,我们表明,与没有声同步的纯流动驱动滴剂相比,我们的设备的坚固性和单分散性得到了增强。
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