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On-chip droplet analysis and cell spheroid screening by capillary wrapping enabled shape-adaptive ferrofluid transporters.

Xuejiao WangXin LiAoyang PuHo Bak ShunCien ChenLiqing AiZhaoling TanJilin ZhangKai LiuJun GaoKiwon BanXi Yao
Published in: Lab on a chip (2024)
Non-invasive droplet manipulation with no physical damage to the sample is important for the practical value of manipulation tools in multidisciplinary applications from biochemical analysis and diagnostics to cell engineering. It is a challenge to achieve this for most existing photothermal, electric stimuli, and magnetic field-based technologies. Herein, we present a droplet handling toolbox, the ferrofluid transporter, for non-invasive droplet manipulation in an oil environment. It involves the transport of droplets with high robustness and efficiency owing to low interfacial friction. This capability caters to various scenarios including droplets with varying components and solid cargo. Moreover, we fabricated a droplet array by transporter positioning and achieved droplet gating and sorting for complex manipulation in the droplet array. Benefiting from the ease of scale-up and high biocompatibility, the transporter-based droplet array can serve as a digital microfluidic platform for on-chip droplet-based bioanalysis, cell spheroid culture, and downstream drug screening tests.
Keyphrases
  • high throughput
  • single cell
  • cell therapy
  • climate change
  • photodynamic therapy
  • emergency department
  • physical activity
  • drug delivery
  • cancer therapy
  • fatty acid
  • high density
  • electronic health record
  • tissue engineering