Shams Khorrami Amin, Rezai Pouya
Department of Mechanical Engineering, York University, Toronto, Ontario M3J 1P3, Canada.
Biomicrofluidics. 2018 Jun 18;12(3):034113. doi: 10.1063/1.5034473. eCollection 2018 May.
Controllable generation of microdroplets at desired sizes and throughputs is important in many applications. Many biological assays require size-optimized droplets for effective encapsulation of analytes and reagents. To perform size optimization, different-size droplets must be generated from identical sources of samples to prevent potential cross-sample variations or other sources of error. In this paper, we introduce a novel alteration of the co-flow droplet generation technique to achieve multi-size generation of monodispersed droplets. Using a custom-made mechanism, we oscillate the disperse-phase (d-phase) flow nozzle perpendicular to the continuous phase (c-phase) flow in a co-flow channel. Oscillation of the d-phase nozzle introduces an additional lateral drag force to the growing droplets while exposing them to various levels of axial drag owing to the parabolic velocity distribution of the c-phase flow. Superimposing both effects results in simultaneous and repeatable generation of monodispersed droplets with different sizes. The effect of nozzle oscillation frequency (f = 0-15 Hz) on droplet generation at different d-phase (Q = 0.05, 0.10, and 0.50 ml/min) and c-phase (Q = 2, 5, and 10 ml/min) flow rates was studied. A wide range of monodispersed droplets (4nl-4 l) were generated using this method. Droplet sizes were directly proportional to the number and inversely proportional to the number and oscillation frequency. Our technique is promising for applications such as aqueous two-phase systems, where due to inherently low interfacial tension, the d-phase flow forms a long stable jet which can be broken into droplets using the additional oscillatory drag in our device.
在许多应用中,以所需尺寸和通量可控地生成微滴非常重要。许多生物分析需要尺寸优化的微滴来有效封装分析物和试剂。为了进行尺寸优化,必须从相同的样品源生成不同尺寸的微滴,以防止潜在的跨样品变化或其他误差来源。在本文中,我们介绍了一种共流微滴生成技术的新颖变体,以实现多尺寸单分散微滴的生成。使用定制的机制,我们在共流通道中使分散相(d相)流喷嘴垂直于连续相(c相)流振荡。d相喷嘴的振荡给正在生长的微滴引入了额外的横向阻力,同时由于c相流的抛物线速度分布,使它们受到不同程度的轴向阻力。两种效应叠加导致同时且可重复地生成不同尺寸的单分散微滴。研究了喷嘴振荡频率(f = 0 - 15 Hz)对不同d相(Q = 0.05、0.10和0.50 ml/min)和c相(Q = 2、5和10 ml/min)流速下微滴生成的影响。使用该方法生成了范围广泛的单分散微滴(4 nl - 4 μl)。微滴尺寸与 数量成正比,与 数量和振荡频率成反比。我们的技术在诸如双水相系统等应用中很有前景,在该系统中,由于固有低界面张力,d相流形成长稳定射流,可利用我们装置中的额外振荡阻力将其破碎成微滴。