Split Chamber Chip - Three fractions - Fluidic 1060
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  • Split Chamber Chip - Three fractions - Fluidic 1060
  • Split Chamber Chip - Three fractions - Fluidic 1060
  • Split Chamber Chip - Three fractions - Fluidic 1060
  • Split Chamber Chip - Three fractions - Fluidic 1060
  • Split Chamber Chip - Three fractions - Fluidic 1060

Description

Split chamber chips are particularly suited for applications in which one microfluidic stream needs to be divided into several fractions for downstream applications.

Fluidic 1060 features two splitter units with Mini Luer interfaces, which enable the division of one microfluidic stream into three fractions. Each fraction is transferred into four downstream chambers, which are designed for on-chip analysis of the sample fractions. These chambers are connected via meander channels, which enable efficient mixing of the sample fractions.

Split Chamber Chip Three fractions Fluidic 1060

Split chamber chips are well suited for applications in which one sample needs to be divided into several fractions for downstream applications. Fluidic 1060 features additional downstream chambers for on-chip analysis of the sample fractions.

€42.20 / unit
€34.30 / unit from 10 units
€26.10 / unit from 100 units
Quantity
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Reference
10002047
Design element
Chamber
Application
Splitter
Usage Statement
For R&D use only, Single use
Fluidic
1060
Material
Zeonor
Material chip body
Mcs-COP 02
Material chip lid
Mcs-foil 005 (Zeonor, 188 µm, Tg 136°C)
Color
Transparent
Interface type
Mini luer
Surface treatment
Not treated
Membrane
No membrane
Pieces per unit
1

Description

Split chamber chips are particularly suited for applications in which one microfluidic stream needs to be divided into several fractions for downstream applications.

Fluidic 1060 features two splitter units with Mini Luer interfaces, which enable the division of one microfluidic stream into three fractions. Each fraction is transferred into four downstream chambers, which are designed for on-chip analysis of the sample fractions. These chambers are connected via meander channels, which enable efficient mixing of the sample fractions.

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