MICRO-FLUIDIC CHIP, FABRICATION METHOD THEREOF AND MICRO-FLUIDIC DEVICE

Organization Name

BOE TECHNOLOGY GROUP CO., LTD.

Inventor(s)

Yue Geng of Beijing (CN)

Xue Dong of Beijing (CN)

MICRO-FLUIDIC CHIP, FABRICATION METHOD THEREOF AND MICRO-FLUIDIC DEVICE - A simplified explanation of the abstract

This abstract first appeared for US patent application 17043985 titled 'MICRO-FLUIDIC CHIP, FABRICATION METHOD THEREOF AND MICRO-FLUIDIC DEVICE

Simplified Explanation

The present disclosure describes a micro-fluidic chip and method for fabricating it, as well as a micro-fluidic device. The chip consists of an upper and lower substrate that are assembled together to form a cell with a gap in between. This gap is designed to hold a droplet. The chip also includes a driving electrode on either the upper or lower substrate, which is used to control the movement of the droplet when powered on. Additionally, there is a laser source on either the upper or lower substrate that provides illumination for detecting the droplet.

• The micro-fluidic chip consists of an upper and lower substrate assembled together to form a cell with a gap for holding a droplet.
• A driving electrode is present on either the upper or lower substrate, allowing for control of the droplet's movement when powered on.
• A laser source is included on either the upper or lower substrate to provide illumination for detecting the droplet.

Potential Applications

This technology has potential applications in various fields, including:

• Biomedical research: The micro-fluidic chip can be used for studying and analyzing biological samples, such as cells or DNA.
• Drug discovery: The chip can be utilized for screening and testing different compounds or drugs.
• Environmental monitoring: The chip can be employed for analyzing water or air samples to detect pollutants or contaminants.

Problems Solved

The micro-fluidic chip addresses several challenges in the field of fluidic manipulation and detection, including:

• Precise control: The driving electrode allows for precise control of the droplet's movement, enabling accurate positioning and manipulation.
• Detection sensitivity: The laser source provides illumination for enhanced detection of the droplet, improving sensitivity and accuracy.
• Miniaturization: The micro-fluidic chip is a compact and portable device, allowing for efficient and cost-effective analysis in small-scale settings.

Benefits

The use of this micro-fluidic chip offers several benefits, including:

• Improved efficiency: The chip enables faster and more efficient analysis of samples, reducing processing time and costs.
• Enhanced accuracy: The precise control and detection capabilities of the chip result in more accurate and reliable results.
• Compact design: The chip's small size and portability make it suitable for on-site or point-of-care applications.

Original Abstract Submitted

The present disclosure provides a micro-fluidic chip, a method for fabricating the same, and a micro-fluidic device. The micro-fluidic chip includes: an upper substrate and a lower substrate assembled to form a cell with a gap between the upper substrate and the lower substrate, the gap being configured to accommodate a droplet; a driving electrode on an upper substrate side or a lower substrate side, the driving electrode being configured to control the droplet to move in a powered-on state, wherein the micro-fluidic chip further includes a laser source on the upper substrate side or the lower substrate side and configured to provide illumination for detection of the droplet.