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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.

droplet chip

2024-02-04

Droplet Microfluidics is a microfluidic technology that manipulates and controls liquid droplets at the micrometer scale for various biological and chemical experiments. Integrating knowledge from microfluidics, chemical analysis, and biology, this technology offers advantages such as high integration, automation, high throughput, and low cost, opening new possibilities in laboratory research and clinical diagnostics. In this article, we will provide a detailed overview of the basic principles, applications, advantages, and challenges of droplet microfluidic chips.

Spiral Cell Sorting Chip

2024-02-03

The Spiral Cell Sorting Chip is an innovative forefront microfluidic technology. Its unique design incorporates a spiral-shaped microchannel, enabling efficient continuous separation of suspended particles or cells by adjusting fluid velocity and spiral structure. This technology, renowned for its outstanding sorting efficiency, compact device size, and flexibility, finds extensive applications in cell sorting, particle separation, and biomedical research. This article delves into the principles, design features, and application areas of the Spiral Sorting Chip, with a particular focus on its significance in capturing circulating tumor cells (CTCs) for cancer research.

Step Emulsification Chip

2024-02-01

Step Emulsification Chip is a microfluidic chip technology widely used in the field of droplet microfluidics. It adopts advanced emulsification technology to realize efficient control and precise manipulation of liquid droplets by layering to form a step structure.

RNA Analysis Chip (No Amplification)

2024-02-01

Technology in the biomedical field continues to innovate, and single-molecule RNA analysis microarrays (amplification-free) have attracted widespread attention as an advanced bioanalytical technology.

Mother Machine chip

2024-01-31

Microfluidic mother machine chip is an advanced biochip technology that integrates microfluidics and cell biology, aiming to simulate and study various stages of mother cells in the cell cycle and related molecular and biological processes. This technology utilizes microstructures such as microchannels, microreactors, and microvalves for highly precise manipulation and observation of mother cells at the microscopic scale. The following is a detailed overview of the mother machine chip, covering its principles, applications, advantages, and potential impact on cell biology and medical research.

Cell Capture Chip

2024-01-31

The core principle of cell capture chips combines microfluidic technology with cell biology. Microfluidic technology enables precise control of fluids through small channels and microstructures, while cell biology focuses on the structure, function, and interactions of cells. Cell capture chips typically feature small channels and surface microtextures that facilitate the efficient capture, positioning, and fixation of cells under specific conditions. These chips can selectively capture specific types of cells through functionalized surfaces, enabling precise sorting of heterogeneous cell populations.

Plant microfluidic chips

2024-01-31

Plant microfluidic chips are increasingly important tools in the field of plant science, with applications spanning plant growth, plant physiology, and plant stress responses. These chips leverage microfluidic technology to finely control and analyze plants through microchannels and microreactors, providing a novel approach to studying plant growth and development, metabolic processes, and plant responses to environmental changes. The following is an overview of plant microfluidic chips, including their principles, applications, advantages, and potential contributions to plant science research.