Canon kabushiki kaisha (20240238780). MICRO-ANALYSIS CHIP simplified abstract
Contents
MICRO-ANALYSIS CHIP
Organization Name
Inventor(s)
MAKOTO Fukatsu of Shizuoka (JP)
MASANORI Tanaka of Kanagawa (JP)
KATSUICHI Abe of Kanagawa (JP)
AKIHISA Matsukawa of Tokyo (JP)
TAKESHI Yamamoto of Kanagawa (JP)
MICRO-ANALYSIS CHIP - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240238780 titled 'MICRO-ANALYSIS CHIP
The abstract of the patent application describes a micro-analysis chip that allows for stable ion concentration measurement without increasing chip size or prolonging measurement time.
- The micro-analysis chip ensures stable ion concentration measurement.
- The chip does not require an increase in size or measurement time.
- A relationship between average areal velocities v1 and v2 is established to optimize performance.
Potential Applications: - Environmental monitoring - Medical diagnostics - Pharmaceutical research
Problems Solved: - Instability in ion concentration measurement - Size constraints in micro-analysis chips - Lengthy measurement times
Benefits: - Accurate and stable ion concentration measurement - Compact design - Efficient performance
Commercial Applications: Title: "Advanced Micro-Analysis Chip for Precise Ion Concentration Measurement" This technology can be used in laboratories, medical facilities, and research institutions for various analytical purposes. It has the potential to improve efficiency and accuracy in ion concentration measurements.
Prior Art: Researchers can explore existing patents related to micro-analysis chips, ion concentration measurement, and miniaturized analytical devices to understand the background of this innovation.
Frequently Updated Research: Stay updated on advancements in micro-analysis technology, ion concentration measurement techniques, and miniaturized analytical devices to enhance the performance of this chip.
Questions about the Micro-Analysis Chip: 1. How does the micro-analysis chip compare to traditional ion concentration measurement methods? The micro-analysis chip offers a more compact and efficient solution for stable ion concentration measurement compared to traditional methods.
2. What are the key factors that contribute to the accuracy of ion concentration measurement using this chip? The relationship between average areal velocities v1 and v2 plays a crucial role in ensuring precise ion concentration measurement with this chip.
Original Abstract Submitted
an object is to provide a micro-analysis chip with which stable ion concentration measurement can be performed without increasing a chip size or prolonging a measurement time. in order to achieve this object, the following micro-analysis chip is provided. that is, provided is a micro-analysis chip when an average areal velocity which is an area of a region that a specimen has permeated during a period until a dispensed specimen reaches a reference electrode is represented by v1, and when an average areal velocity which is an area of a region that the specimen has permeated during a period until the dispensed specimen fills an inside of a first channel chamber after the dispensed specimen has reached the reference electrode is represented by v2, the average areal velocity v1 and the average areal velocity v2 satisfy a relationship of v1>v2.
- Canon kabushiki kaisha
- FUKA Enokido of Kanagawa (JP)
- MAKOTO Fukatsu of Shizuoka (JP)
- JUN Miura of Kanagawa (JP)
- MASANORI Tanaka of Kanagawa (JP)
- HARUNOBU Maeda of Tokyo (JP)
- KATSUICHI Abe of Kanagawa (JP)
- AKIHISA Matsukawa of Tokyo (JP)
- YASUKAZU Ikami of Tokyo (JP)
- Keiji Miyazaki of Tokyo (JP)
- TAKESHI Yamamoto of Kanagawa (JP)
- B01L3/00
- G01N27/333
- CPC B01L3/5023