百万光学微球条码的液滴微流控生成。

Droplet microfluidic generation of a million optical microparticle barcodes.

出版信息

Opt Express. 2021 Nov 8;29(23):38109-38118. doi: 10.1364/OE.439143.

DOI:10.1364/OE.439143

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8687102/

Abstract

Micron-scale barcode particles enable labelling of small objects. Here, we demonstrate high-throughput barcode fabrication inside a microfluidic chip that can embed multiple, dye-doped high quality-factor whispering gallery mode cavities inside aqueous droplets at kilohertz rates. These droplets are then cured to form polyacrylamide hydrogel beads as small as 30 μm in diameter. Optical resonance spectra of the embedded cavities provide the hydrogels with unique barcodes with their diversity combinatorically scaled with the number of embedded cavities. Using 3 cavities per hydrogel, we obtain approximately one million uniquely identifiable, optically readable barcode microparticles.

摘要

微尺度条码颗粒可用于标记小物体。在这里，我们展示了在微流控芯片内进行高通量条码制造的方法，该方法可以在千赫兹的速率下将多个掺杂染料的高质量 whispering gallery 模式微腔嵌入到水滴滴中。然后将这些液滴固化形成聚丙酰胺水凝胶珠，直径小至 30μm。嵌入腔的光学共振光谱为水凝胶提供了独特的条码，其多样性与嵌入腔的数量呈组合式扩展。每个水凝胶使用 3 个腔，我们获得了大约 100 万个可唯一识别的、光学可读的条码微颗粒。

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