Cross-Flow Membrane Chip - Gravitiy-driven flow option - Fluidic 694
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  • Cross-Flow Membrane Chip - Gravitiy-driven flow option - Fluidic 694
  • Cross-Flow Membrane Chip - Gravitiy-driven flow option - Fluidic 694
  • Cross-Flow Membrane Chip - Gravitiy-driven flow option - Fluidic 694
  • Cross-Flow Membrane Chip - Gravitiy-driven flow option - Fluidic 694

Description

The cross-flow membrane chip Fluidic 694 features two independent chambers, which interact through a permeable membrane. Each chamber features two connected inlets and one outlet. The channels connecting the inlets with the chambers meander to allow for e.g. media heating. The chip is available with different membrane types, differing e.g. in pore size.

Fluidic 480 can be used e.g. for cell culture experiments, where cells, such as epithelial cells are co-cultured. The chip is also ideal for applications like filtering, size exclusion, or migration studies.

Cross-Flow Membrane Chip Gravitiy-driven flow option Fluidic 694

The cross-flow membrane chip Fluidic 694 is a versatile microfluidic tool for organ-on-chip experiments.

Material
Surface Treatment
Membrane pore size
€89.50 / unit
€69.40 / unit from 10 units
€47.10 / unit from 100 units
Quantity
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Reference
10002043
Design element
Membrane
Application
Cell culture, Organ-on-Chip
Usage Statement
For R&D use only, Single use
Fluidic
694
Material
Topas
Material chip body
Mcs-COC 13
Material chip lid
Mcs-foil 011 (Topas, 140 µm, Tg 78°C)
Color
Transparent
Interface type
Mini luer
Surface treatment
Hydrophilized
Membrane
Mcs-membrane 073 (3 µm pores, PET, translucent)
Pieces per unit
1

Description

The cross-flow membrane chip Fluidic 694 features two independent chambers, which interact through a permeable membrane. Each chamber features two connected inlets and one outlet. The channels connecting the inlets with the chambers meander to allow for e.g. media heating. The chip is available with different membrane types, differing e.g. in pore size.

Fluidic 480 can be used e.g. for cell culture experiments, where cells, such as epithelial cells are co-cultured. The chip is also ideal for applications like filtering, size exclusion, or migration studies.

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