18485367. ACTIVE MATERIAL, ELECTRODE, SECONDARY BATTERY, BATTERY PACK, AND VEHICLE simplified abstract (KABUSHIKI KAISHA TOSHIBA)
Contents
ACTIVE MATERIAL, ELECTRODE, SECONDARY BATTERY, BATTERY PACK, AND VEHICLE
Organization Name
Inventor(s)
Keigo Hoshina of Yokohama (JP)
ACTIVE MATERIAL, ELECTRODE, SECONDARY BATTERY, BATTERY PACK, AND VEHICLE - A simplified explanation of the abstract
This abstract first appeared for US patent application 18485367 titled 'ACTIVE MATERIAL, ELECTRODE, SECONDARY BATTERY, BATTERY PACK, AND VEHICLE
According to one embodiment, the active material provided is a Mo-containing niobium-titanium oxide with a monoclinic structure. The ratio of the intensity of a second peak to the intensity of a first peak in a specific range is 0.5 or greater, as determined by X-ray diffraction spectroscopy.
- Mo-containing niobium-titanium oxide with a monoclinic structure
- Specific ratio of peak intensities for characterization
- Identified using X-ray diffraction spectroscopy
Potential Applications: - Energy storage devices - Catalysis - Sensors
Problems Solved: - Improved performance of energy storage devices - Enhanced catalytic activity - More accurate sensors
Benefits: - Higher efficiency in energy storage - Increased reaction rates in catalysis - Improved sensitivity and accuracy in sensors
Commercial Applications: Title: Advanced Materials for Energy Storage and Catalysis This technology can be utilized in the development of high-performance batteries, efficient catalysts, and sensitive sensors, catering to industries such as renewable energy, automotive, and environmental monitoring.
Questions about Mo-containing niobium-titanium oxide: 1. How does the monoclinic structure of the active material contribute to its performance in energy storage devices? 2. What are the potential challenges in scaling up the production of Mo-containing niobium-titanium oxide for commercial applications?
Frequently Updated Research: Researchers are continuously exploring novel methods to enhance the properties of Mo-containing niobium-titanium oxide for various applications, including investigating its electrochemical behavior in energy storage systems and optimizing its catalytic performance.
Original Abstract Submitted
According to one embodiment, an active material is provided. The active material includes a Mo-containing niobium-titanium oxide having a monoclinic structure. A ratio I/Iof an intensity Iof a second peak appearing within a range of 2θ from 25.0° to 25.5° relative to an intensity Iof a first peak appearing within a range of 2θ from 23.5° to 24.5° is 0.5 or greater, according to X-ray diffraction spectroscopy for the active material.
