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Surface modification/modification

2024-06-05

Low Pressure Plasma Coating Technology is a technology that generates plasma in a low-pressure vacuum environment to activate the surface of the substrate. At the same time, a gas mixture or evaporated liquid monomer is used as the raw material for the coating, which is introduced into the vacuum process chamber, and then adhered to the surface of the substrate and covalently bonded with it in a plasma atmosphere, to form a dense, high-quality coating with a thickness ranging from 10 nanometers to 100 micrometers.

Microfluidic Chip Injection Molding for Mass Production

2024-02-28

Injection molding is a manufacturing process that involves injecting molten plastic into molds, followed by cooling and solidification to achieve the desired shape. In the production of microfluidic plastic chips, this method offers several advantages. Firstly, injection molding can accomplish large-scale production in a short timeframe, enhancing production efficiency. Secondly, through mold design and optimization, the technique ensures precise dimensions and shapes for microfluidic chips, ensuring reliability and stability in practical applications. Additionally, injection molding comes with lower production costs, contributing to economic benefits in mass production.

Organ chip processing equipment

2023-12-06

In today's biomedical research field, organ chip/cell culture chip/organoid chip technology is pushing the boundaries of science at an astonishing speed. In order to realize more realistic and efficient biological experiments, organ chip/cell culture chip/organoid chip processing equipment has become an indispensable key element.

Plastic material

2023-10-24

Microfluidic plastic chips are miniature laboratory devices made from polymer materials, featuring microchannels and microchambers for controlling and analyzing microfluids. In comparison to traditional glass chips, plastic chips offer advantages such as low cost, flexible fabrication, lightweight, and easy processing. Widely applied in biomedical research, chemical analysis, environmental monitoring, etc., these chips enable effective experiments like micro-reactions, cell culture, drug screening, providing convenient tools for laboratory research. Microfluidic plastic chips play a crucial role in advancing microfluidic technology, promoting automation, and high-throughput experiments in laboratories.

Glass material

2023-10-24

Glass microfluidic chip is a crucial tool in microfluidic technology, utilizing glass as the manufacturing material for the chip. Compared to traditional polymer chips, glass chips exhibit outstanding optical transparency, chemical inertness, thermal stability, and biocompatibility. These characteristics make glass chips widely applied in life science research, medical diagnostics, drug screening, and other fields. The fabrication processes for glass chips are diverse, involving methods such as micromachining and chemical etching to precisely create microstructures and microchannels, achieving the integration of microfluidic systems. The highly controllable manufacturing process provides a stable and reliable platform for experiments, and the transparency facilitates real-time observation of cells, particles, or biochemical reactions within the microfluid, offering advanced and dependable solutions for the application of microfluidic technology.

PDMS Material

2023-10-24

Suitable for cell culture, drug screening, cell capture and other related chip manufacturing, the material itself is hydrophobic in nature and can be surface modified by chemical or physical means.

SU-8 Mold Processing Platform

2023-09-11

The Mold Processing Platform is designed to provide an efficient and comprehensive solution for SU-8 mold processing. This platform integrates core equipment such as a desktop photolithography machine, spin coater, and hotplate. The desktop photolithography machine is compact, uses LED light sources, achieves an exposure resolution of up to 2um, and has an exposure uniformity greater than 90%, enabling the precise fabrication of micro and nanostructures. The spin coater with a stable rotation speed of ±0.5% and a speed of up to 10,000 rpm ensures uniform coating of photoresist, improving consistency. The hotplate, with a temperature stability of ±1%, provides thorough baking for SU-8 molds, enhancing their durability and mechanical properties.Compared to traditional processing platforms, which are large and have strict environmental requirements, the SU-8 Mold Processing Platform is highly adaptable. The compact footprint of the photolithography machine allows easy deployment in ordinary laboratories. This platform facilitates rapid chip preparation, offering a convenient pathway for the widespread adoption and application of microfluidic technology.

Surface modification/modification - PEG modification

2023-05-12

PEG modifications can be used to alter the chemical and physical properties of the chip surface to achieve specific application requirements.PEG modifications are typically performed by chemically binding PEG molecules to the chip surface to form a stable PEG layer.