Filtration and Separation Chip - 8 filtration chambers - Fluidic 1332
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  • Filtration and Separation Chip - 8 filtration chambers - Fluidic 1332
  • Filtration and Separation Chip - 8 filtration chambers - Fluidic 1332
  • Filtration and Separation Chip - 8 filtration chambers - Fluidic 1332
  • Filtration and Separation Chip - 8 filtration chambers - Fluidic 1332
  • Filtration and Separation Chip - 8 filtration chambers - Fluidic 1332
  • Filtration and Separation Chip - 8 filtration chambers - Fluidic 1332

Description

The filtration and separation chip Fluidic 1332 features eight individual filtrations units with each containing one inlet and one outlet. It enables the filtration, capture and concentration of particles, e.g. cell populations. A stream is lead through the membrane and captures larger components on the bottom of the chip, while smaller cells can pass through the membrane.

Captured fractions can be monitored from below with an inverted microscope. Each individual chamber features a different height of the monitoring chamber below the membrane.

The off-the-shelf chip features a membrane with 8 μm pores. However, customed membrane integration can be realized. Please contact us for feasibility and pricing via inquiries@microlfuidic-ChipShop.com.

Filtration and Separation Chip 8 filtration chambers Fluidic 1332

The filtration and separation chip Fluidic 1332 enables the filtration, concentration or separation of particles, such as cell populations.

Surface Treatment
€115.35 / unit
€79.60 / unit from 10 units
Quantity
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Reference
10001837
Design element
Membrane
Application
Filtration
Usage Statement
For R&D use only, Single use
Fluidic
1332
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
Not treated
Membrane
Mcs-membrane 120 (8 µm pores, PET, transparent)
Pieces per unit
1

Description

The filtration and separation chip Fluidic 1332 features eight individual filtrations units with each containing one inlet and one outlet. It enables the filtration, capture and concentration of particles, e.g. cell populations. A stream is lead through the membrane and captures larger components on the bottom of the chip, while smaller cells can pass through the membrane.

Captured fractions can be monitored from below with an inverted microscope. Each individual chamber features a different height of the monitoring chamber below the membrane.

The off-the-shelf chip features a membrane with 8 μm pores. However, customed membrane integration can be realized. Please contact us for feasibility and pricing via inquiries@microlfuidic-ChipShop.com.

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