Top Asahi provides various microfluidic chips, microfluidic chip processing equipment and microfluidic commonly used consumables, and we also provide professional microfluidic chip customization services.
A microfluidic vascular chip is a miniature device that mimics the human vascular system in vitro and usually consists of a microfluidic chip, a cell culture device, and a microimaging device.
A microfluidic kidney organ chip is a miniature bioreactor for studying kidney physiology and disease that uses microfluidics to control the flow of fluids within the chip to mimic the physiological environment of the kidney.
Microfluidic breast chip is a micro bioreactor used to mimic breast tissue, which can reconstruct the structure and function of breast tissue in vitro, and is used to study the mechanism of breast cancer occurrence and development as well as to screen drugs.
It consists of microfluidic channels, micromachined chips, and human nerve cells that can control fluid flow and mixing at the micrometer scale, mimicking the complex flow and mass transfer processes within the human brain.
Microfluidic Cardiac Organ Chip is an in vitro emulation of the human cardiovascular system, utilizing microfluidic chip technology, biomaterials, cell culture and imaging to construct a miniature cardiovascular system with physiological structure and function.
The QR code is etched on the microfluidic chip or other chips, which is used to identify the chip information and facilitate the tracking of the whole process during the experiment.
The Electrophoresis Microfluidic Chip is an innovative bioanalytical tool that combines electrophoresis and microfluidic technologies. Integrating the advantages of microfluidics, this technology utilizes micro-scale channels, electric fields, and highly flexible flow control to achieve efficient separation, detection, and analysis of biomolecules. This article delves into the technical principles, application areas, advantages, challenges, and future prospects of CEMC.
It adopts the principle of microfluidics to guide the reaction materials into tiny channels for efficient mixing and reaction on a microscopic scale.
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