Our products cover droplet microfluidics, organ chips, micro mixers, electrophoresis chips, flow cells and enhanced oil recovery chips, and we can provide various other types of microfluidic chip production and processing services.
It adopts the principle of microfluidics to guide the reaction materials into tiny channels for efficient mixing and reaction on a microscopic scale.
Mixing and heating fluids in a microreactor allows a high degree of control over chemical reactions.
In this paper, we will have an in-depth discussion on fissured rock chips, including their technical principles, fabrication materials, fissure structure simulation, application areas, experimental simulation, and research significance, with a view to presenting readers with a comprehensive and in-depth understanding.
Array Permeation Chip (APC) is a cutting-edge technology that has attracted widespread attention in the fields of biology, chemistry and medicine, providing an innovative tool for laboratory research.
Abstract: The DDI-Chip is a unique and easy-to-use patented microfluidic device with five interconnected channels capable of reconstructing complex biological microenvironments for a wide range of applications and analyses. The company also offers microfluidic chip processing services in a variety of materials and configurations.
It provides a morphologically and biologically realistic microenvironment that more accurately depicts in vivo reality. The SynBBB is a microfluidic device that allows to reconstruct the complexity of the brain's in vivo microenvironment by replicating histological slices of brain tissue cells that communicate with endothelial cells across the blood-brain barrier (BBB).
Concentration Gradient Chips are a microfluidic chip technology based on the fundamental principle of creating and manipulating concentration gradients in solution on a tiny scale.
The Staggered Herringbone Micromixer Chip (SHM) integrates microfluidics with the unique structure of staggered herringbone, showcasing outstanding mixing and separation performance. Its unique channel layout mimics the branching structure of herringbone, effectively increasing mixing paths and enhancing mixing efficiency. Its compact size and integrability make it suitable for various chemical reactions and bioanalytical applications. Innovative design allows users to achieve efficient mixing at the microscale, ensuring more accurate and reliable experimental results. The introduction of the Staggered Herringbone Micromixer Chip not only brings new possibilities to the field of microfluidics but also provides a powerful tool for laboratory research and analysis.
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