利用带有图案化亲水斑块的两亲性微颗粒形成可调节的皮升级液滴颗粒

Xinpei Song, Shreya Udani, Mengxing Ouyang, Mehmet Akif Sahin, Dino Di Carlo, Ghulam Destgeer
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引用次数: 0

摘要

以微颗粒为模板的液滴或液滴微粒最近在诊断免疫测定、单细胞分析和数字分子生物学领域引起了人们的兴趣。有研究表明,两亲性微粒在与不溶油相混合后,会自发地在其空腔内捕获水滴,其中每个微粒都会模板化一个水滴。在这里,我们制作了一种两亲微粒,在该微粒方形疏水外环的内角嵌入了四个离散的亲水斑块(4C 粒子)。三维计算流体动力学模拟预测了液滴的形成动力学,并根据图案配置的不同预测了不同的平衡条件。实验再现了平衡条件,从而实现了可调液滴构型,两亲性颗粒模板化的液滴体积最小可达 ~200pL。液滴结构主要取决于 4C 颗粒亲水斑块的大小。这种经过验证的建模方法可为设计具有不同体积和数量的液滴微粒提供信息,从而可用于新的放大生物测定,以提高灵敏度、动态范围和统计置信度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Tunable picoliter-scale dropicle formation using amphiphilic microparticles with patterned hydrophilic patches
Microparticle-templated droplets or dropicles have recently gained interest in the fields of diagnostic immunoassays, single-cell analysis, and digital molecular biology. Amphiphilic particles have been shown to spontaneously capture aqueous droplets within their cavities upon mixing with an immiscible oil phase, where each particle templates a single droplet. Here, we fabricated an amphiphilic microparticle with four discrete hydrophilic patches embedded at the inner corners of a square-shaped hydrophobic outer ring of the particle (4C particle). 3D computational fluid dynamics simulations predicted droplet formation dynamics and differing equilibrium conditions depending on the patterning configuration. Experiments recapitulated equilibrium conditions enabling tunable dropicle configurations with reproducible volumes down to ~200pL templated by the amphiphilic particles. The dropicle configurations depended predominantly on the size of the hydrophilic patches of the 4C particles. This validated modeling approach can inform the design of dropicles with varying volumes and numbers per particle, which can be harnessed in new amplified bioassays for greater sensitivity, dynamic range, and statistical confidence.
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