18617257. TONER simplified abstract (CANON KABUSHIKI KAISHA)
Contents
TONER
Organization Name
Inventor(s)
Kazunari Ooyama of Ibaraki (JP)
Nobuyoshi Sugahara of Tokyo (JP)
Toru Takahashi of Ibaraki (JP)
Daisuke Tsujimoto of Tokyo (JP)
TONER - A simplified explanation of the abstract
This abstract first appeared for US patent application 18617257 titled 'TONER
Simplified Explanation: The patent application describes a toner containing toner particles with a unique element distribution profile, analyzed using X-ray photoelectron spectroscopy.
- Toner particles contain a binder resin, colorant, and inorganic fine particles.
- Element distribution profile shows minimum points of carbon concentration and maximum values of inorganic element concentration.
- The inorganic element is derived from the inorganic fine particles in the toner.
Key Features and Innovation:
- Unique element distribution profile in toner particles.
- Analysis using X-ray photoelectron spectroscopy.
- Optimization of inorganic element concentration in toner.
Potential Applications:
- Printing industry for high-quality toner production.
- Research and development of toner materials.
- Quality control in toner manufacturing processes.
Problems Solved:
- Ensuring consistent quality in toner production.
- Enhancing print quality and durability.
- Optimizing toner composition for better performance.
Benefits:
- Improved print quality.
- Enhanced durability of printed materials.
- Consistent performance of toner cartridges.
Commercial Applications: Optimizing Toner Composition for Enhanced Print Quality and Durability
Prior Art: Research on toner composition and element distribution in toner particles.
Frequently Updated Research: Ongoing studies on toner materials and composition for improved printing technology.
Questions about Toner Composition: 1. How does the unique element distribution profile in toner particles impact print quality? 2. What are the potential implications of optimizing inorganic element concentration in toner for commercial printing applications?
Original Abstract Submitted
A toner includes toner particles containing a binder resin, a colorant, and inorganic fine particles, in which in a depth profile of an element distribution in a depth region from the outermost surface of a particle to a depth of 500 nm the depth profile being obtained by an element analysis performed by X-ray photoelectron spectroscopy using the toner as a sample, two or more minimum points of a concentration of a carbon element in the depth region exist, a concentration of an inorganic element becomes a maximum value at a depth position corresponding to each of the minimum points, and the inorganic element is an element derived from the inorganic fine particle.
- CANON KABUSHIKI KAISHA
- Kazunari Ooyama of Ibaraki (JP)
- Yuu Nishimura of Chiba (JP)
- Nobuyoshi Sugahara of Tokyo (JP)
- Hitoshi Sano of Chiba (JP)
- Toru Takahashi of Ibaraki (JP)
- Kazuki Murata of Tokyo (JP)
- Daisuke Tsujimoto of Tokyo (JP)
- Koh Ishigami of Chiba (JP)
- Shin Kitamura of Ibaraki (JP)
- Takaho Shibata of Tokyo (JP)
- Ryo Nakajima of Chiba (JP)
- G03G9/097
- G03G9/087
- CPC G03G9/09708