Product description
The BioDeviceLab Membrane-Integrated Microfluidic Chip with Luer Lock is designed to enable selective transport, separation, or molecular exchange across an embedded membrane within a compact microfluidic architecture. The chip features paired microchannels routed on either side of a defined membrane region, allowing fluids to interact through diffusion, filtration, or selective permeability while remaining hydraulically isolated. Fabricated from an optically transparent, lab-grade polymer, the device supports direct visualization of flow behavior and membrane interfaces during operation. This platform is well suited for applications requiring controlled mass transport, barrier modeling, sample conditioning, or membrane-based assays in research and translational microfluidic systems.
Key features
Integrated membrane region for selective transport or separation
Parallel microchannel architecture on either side of the membrane
Reservoir-based fluid loading for simple operation
Optically transparent chip body for real-time monitoring
Low dead-volume fluid routing for efficient sample handling
Compatible with continuous-flow or static incubation workflows
Applications
Membrane-based filtration and separation
Diffusion and permeability studies
Barrier and transport modeling
Sample conditioning and cleanup
Microfluidic assay development involving selective exchange
Integration into multi-step lab-on-a-chip workflows
