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Dual-Inlet Droplet Generator - 20 µm nozzles - Fluidic 1871
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  • Dual-Inlet Droplet Generator - 20 µm nozzles - Fluidic 1871
  • Dual-Inlet Droplet Generator - 20 µm nozzles - Fluidic 1871
  • Dual-Inlet Droplet Generator - 20 µm nozzles - Fluidic 1871
  • Dual-Inlet Droplet Generator - 20 µm nozzles - Fluidic 1871
  • Dual-Inlet Droplet Generator - 20 µm nozzles - Fluidic 1871

Description

Fluidic 1871 consists of four identical droplet generator units. Each unit provides a double-channel crossing, ideal for mixing two aqueous phases. The mixing ratio can be adjusted by varying the flow rate ratio. After mixing, W/W/O emulsions are generated at the downstream flow-focusing junction.

Among numerous other applications, these chips enable the investigation of dose-dependent effects of drugs on individual cells in high throughput, using million-fold small reaction spaces. The chip features performance-enhancing particle-trapping filters right at the Mini Luer interfaces.

To learn more about droplet generation check the droplet generation booklet in the attachments or watch the video below.

Dual-Inlet Droplet Generator 20 µm nozzles Fluidic 1871

The dual-inlet droplet Generator with a double cross features four identical droplet generator units. Each unit provides a double-channel crossing, which is ideal for mixing two aqueous phases and subsequent encapsulation in an oil phase.

Material
€42.20 / unit
€34.40 / unit from 10 units
€26.10 / unit from 100 units
Quantity
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Reference
10002386
Application
Droplet generation
Usage Statement
For R&D use only, Single use
Fluidic
1871
Material
Topas
Material chip body
Mcs-COC 16
Material chip lid
Mcs-foil 011 (Topas, 140 µm, Tg 78°C)
Color
Transparent
Interface type
Mini luer
Surface treatment
Not treated
Membrane
No membrane
Pieces per unit
1

Description

Fluidic 1871 consists of four identical droplet generator units. Each unit provides a double-channel crossing, ideal for mixing two aqueous phases. The mixing ratio can be adjusted by varying the flow rate ratio. After mixing, W/W/O emulsions are generated at the downstream flow-focusing junction.

Among numerous other applications, these chips enable the investigation of dose-dependent effects of drugs on individual cells in high throughput, using million-fold small reaction spaces. The chip features performance-enhancing particle-trapping filters right at the Mini Luer interfaces.

To learn more about droplet generation check the droplet generation booklet in the attachments or watch the video below.

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