FIRST SUBSTRATE, MICROFLUIDIC CHIP AND METHOD FOR PROCESSING SAMPLE

Organization Name

BOE TECHNOLOGY GROUP CO., LTD.

Inventor(s)

Haonan Liu of Beijing (CN)

Ding Ding of Beijing (CN)

FIRST SUBSTRATE, MICROFLUIDIC CHIP AND METHOD FOR PROCESSING SAMPLE - A simplified explanation of the abstract

This abstract first appeared for US patent application 17778177 titled 'FIRST SUBSTRATE, MICROFLUIDIC CHIP AND METHOD FOR PROCESSING SAMPLE

The present application discloses a first substrate for a microfluidic chip, the microfluidic chip, and a method for processing a sample. The first substrate includes various components such as injection ports, reacting regions, and fluid backflow prevention regions to facilitate sample processing within the microfluidic chip.

• The first substrate for a microfluidic chip includes injection ports, reacting regions, and fluid backflow prevention regions.
• The microfluidic chip is designed to process samples efficiently and accurately.
• The method for processing a sample involves utilizing the components of the first substrate to carry out various reactions and analyses.

Potential Applications: - Medical diagnostics - Environmental monitoring - Pharmaceutical research

Problems Solved: - Efficient sample processing - Precise analysis of samples - Prevention of fluid backflow

Benefits: - Faster sample processing - Higher accuracy in analysis - Reduced risk of contamination

Commercial Applications: Title: "Advanced Microfluidic Chip Technology for Sample Processing" This technology can be used in laboratories, medical facilities, and research institutions for various sample processing applications. The market implications include improved efficiency, accuracy, and reliability in sample analysis processes.

Prior Art: There may be existing patents or publications related to microfluidic chip technology for sample processing. Further research is needed to identify any prior art relevant to this specific innovation.

Frequently Updated Research: Researchers are constantly exploring new applications and improvements in microfluidic chip technology for sample processing. Stay updated on the latest advancements in this field to leverage the full potential of this innovation.

Questions about Microfluidic Chip Technology for Sample Processing: 1. How does this technology compare to traditional sample processing methods? 2. What are the potential scalability challenges when implementing this technology in large-scale sample processing operations?

Original Abstract Submitted

The present application discloses a first substrate for a microfluidic chip, the microfluidic chip, and a method for processing a sample. The first substrate includes a first injection port, a first reacting region, a first upstream end of which is communicated with the first injection port, a second injection port, a second reacting region, an upstream end of which is communicated with the second injection port, and a downstream end of which is communicated with a second upstream end of the first reacting region, a fluid backflow prevention region between the second reacting region and the first reacting region, an upstream end of which is communicated with the downstream end of the second reacting region, and a downstream end of which is communicated with the second upstream end of the first reacting region, and an exit port communicated with a downstream end of the first reacting region.