Top Asahi provides various microfluidic chips, microfluidic chip processing equipment and microfluidic commonly used consumables, and we also provide professional microfluidic chip customization services.
Microfluidic chips are miniaturized laboratory systems for controlling and manipulating tiny liquid fluids. Among other things, the material of the chip is crucial as it can directly affect the performance and stability of the chip.
PDMS is one of the commonly used materials in microfluidic chip preparation, which has the advantages of good transparency, biocompatibility, flexibility and plasticity, and chemical resistance, providing convenience and possibility for microfluidic chip research.
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 PDMS Chip Processing Platform is designed to provide an efficient and comprehensive solution for the preparation of PDMS chips. This platform integrates electronic scales, PDMS chip casting devices, ovens, PDMS chip punchers, PDMS chip cutters, PDMS chip aligners, and PDMS plasma bonders, among other PDMS chip processing equipment. The electronic scale ensures precise proportions of PDMS materials, laying a reliable foundation for chip preparation. The PDMS casting device, with its professional design, uniformly pours PDMS material onto the mold, providing support for chip molding. The oven offers stable temperature control, ensuring thorough curing of PDMS material. PDMS punchers and cutters guarantee precise hole and structure fabrication, providing higher processing accuracy. PDMS aligners enable the precise alignment of multi-layer structures, enhancing the capability to produce multi-layer PDMS chips. The plasma bonder achieves strong bonding of PDMS. The compact design of the processing platform allows easy deployment even in standard laboratories, facilitating customers in rapidly achieving chip preparation. This platform provides convenient and robust support for the research and application of microfluidic technology.
Vacuum hot press bonding machine is designed for microfluidic chip preparation, which is mainly used to bond plastic chips (e.g. PMMA, PC, COC, etc.) to realize chip packaging and integration.
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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