Microfluidic chips and devices can support many applications across biological research. A notable area is cell culture, where microfluidic platforms can enable researchers to reconstruct physiologically relevant tissue microenvironments. Among these are biological features such as laminar flow, shear stress, vascularization, blood-brain barriers, chemical concentration gradients, and air-liquid interfaces. These microfluidic platforms offer researchers quantifiable, optically accessible, and experimentally tunable analogs to architectures found in living tissue. Other microfluidic chips are designed to serve applications such as electrophoresis, PCR detection, and nucleic acid analysis with efficiency and cost-effectiveness in mind. Visit the supplier page for more information, including product-specific mechanisms, properties, and designated applications.
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Creative Biolabs
- BE-Doubleflow is an advanced device consisting of two perfusion channels connected by a porous membrane, and is your ...
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Creative Biolabs
- BE-Doubleflow Standard is an advanced device consisting of two perfusion channels connected by a porous membrane, and is...
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Creative Biolabs
- BE-Flow is an easy to use device for long-term 2D/3D cell culture and mechanical shear stress studies by means of ...
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Creative Biolabs
- BE-Flow Standard is an easy to use device for long-term 2D/3D cell culture and mechanical shear stress studies by means ...
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Creative Biolabs
- BE-Gradient Barrier-Free consists of a central cell culture chamber and two adjacent channels that come into direct ...
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Creative Biolabs
- BE-Gradient Standard enables electrochemical gradients for 3D cell culture via three small microchannels connected ...
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Creative Biolabs
- BE-Transflow is our versatile cell culture platform, which can be used to construct cell interface or Air-Liquid ...
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Creative Biolabs
- BE-Transflow Standard is our versatile cell culture platform, which can be used to construct cell interface or Air-...
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Creative Biolabs
- This product is a Centrifuge Microfluidic Chip with integrated Luer connections ensure leak-free junctions to the tubing...
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Creative Biolabs
- Experiencing our snake-shaped continuous flow PCR chip for fast, efficient, highly specific, and cost-effective PCR ...
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Creative Biolabs
- We offer cross-shaped, T-shaped, and Y-shaped channel chips for applications such as studying shear forces on cells or ...
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Creative Biolabs
- With the utilization of laminar flow theory and a branching channel network, our Christmas tree network gradient chip ...
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Creative Biolabs
- The Herringbone Microfluidic Chip significantly accelerates the mixing in the low Reynolds number regime by inducing the...
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Creative Biolabs
- Nanoparticle Generation Microfluidic Chip is a easy-to-use device for the generation of nanoparticles with well-...
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Creative Biolabs
- The Particle & Cell Spiral Sorting Microfluidic Chip is a particle/cell sorting system with four different sizes made by...
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Creative Biolabs
- The Serpentine Droplet Generator Microfluidic Chip is made up of two parts: the upper part made of Polycarbonate with ...
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Creative Biolabs
- The branching channel chip is a simplified model of symmetric/asymmetric branching, providing a visual and quantifiable ...
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Creative Biolabs
- Idealized Co-Culture Network Chips (IMN2 Linear) is a microfluidic chip which can be applied for constructing SynBBB 3D ...
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Creative Biolabs
- Idealized Co-Culture Network Chips (IMN2 Radial) is a microfluidic chip which can be applied for constructing SynBBB 3D ...
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Creative Biolabs
- Idealized Co-Culture Network Chips (IMN2 TEER) is a microfluidic chip which can be applied for constructing SynBBB 3D ...
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Creative Biolabs
- Three channels are deployed on each chip, allowing researchers to study cell shear effects and adhesion behavior under ...
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Creative Biolabs
- This chip utilizes a pseudo-random microvascular network to replicate cell-particle or cell-cell interactions in an in ...
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Creative Biolabs
- SMN2 microvascular network Co-Culture Chips is a microfluidic chip which can be applied for constructing SynRAM 3D ...
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