2011
DOI: 10.1039/c0lc00553c
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Tunable 3D droplet self-assembly for ultra-high-density digital micro-reactor arrays

Abstract: We present a tunable three-dimensional (3D) self-assembled droplet packing method to achieve high-density micro-reactor arrays for greater imaging efficiency and higher-throughput chemical and biological assays. We demonstrate the capability of this platform's high-density imaging method by performing single molecule quantification using digital polymerase chain reaction, or digital PCR, in multiple self-assembled colloid-like crystal lattice configurations. By controlling chamber height to droplet diameter ra… Show more

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Cited by 59 publications
(61 citation statements)
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“…The crystalline lattice of droplet packing model in theory for predicting high density monodispersed droplets assembly patterns by controlling the confined channel depth or droplet size has been demonstrated by Lee et al [10]. By changing only the depth of the microchannel In Figure 6, there were more data points found in the bottom-left area than top-right area because of the stable droplet generation and fluidic flow at low flow rates rather than high flow rates.…”
Section: Microdroplets Size Effect On the Assembly Configurationsmentioning
confidence: 88%
See 3 more Smart Citations
“…The crystalline lattice of droplet packing model in theory for predicting high density monodispersed droplets assembly patterns by controlling the confined channel depth or droplet size has been demonstrated by Lee et al [10]. By changing only the depth of the microchannel In Figure 6, there were more data points found in the bottom-left area than top-right area because of the stable droplet generation and fluidic flow at low flow rates rather than high flow rates.…”
Section: Microdroplets Size Effect On the Assembly Configurationsmentioning
confidence: 88%
“…Monodispersed photonic electro-responsive Janus microspheres have been created with the assistance of a microfluidic device, showing structural colors of the nanoparticle crystals [24]. Furthermore, highly ordered structures of fluidic particles (gas-bubbles or liquid-droplets) have been observed in microfluidic devices, which could afford unique fluidic hydrodynamics and boundary restriction, and be applied for imaging, bioassaying, data storaging and environment monitoring [10,21,22,30,31].…”
Section: Introductionmentioning
confidence: 99%
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“…71 Hierarchical assembly of materials can be guided by either allaqueous phases or their interface. In the assembly of functional biomimetic units, droplet networks constructed through 3-D printing 72 and droplet-packing in chambers 73 bring new promises. Meanwhile, hierarchical assembly of nano-particles has been investigated at the interfaces of two miscible aqueous phases.…”
Section: New Approaches For Materials Fabricationmentioning
confidence: 99%