METHOD FOR PRODUCING PHOTORESPONSIVE NANOPARTICLE WITH PEROVSKITE-TYPE CRYSTALLINE STRUCTURE

Organization Name

CANON KABUSHIKI KAISHA

Inventor(s)

TAKAYUKI Teshima of Kanagawa (JP)

METHOD FOR PRODUCING PHOTORESPONSIVE NANOPARTICLE WITH PEROVSKITE-TYPE CRYSTALLINE STRUCTURE - A simplified explanation of the abstract

This abstract first appeared for US patent application 18523575 titled 'METHOD FOR PRODUCING PHOTORESPONSIVE NANOPARTICLE WITH PEROVSKITE-TYPE CRYSTALLINE STRUCTURE

Simplified Explanation

The abstract describes a method for producing a photoresponsive nanoparticle by continuously transporting raw material liquids containing lead halide and fatty acid cesium to a heated mixer and mixing them.

• Explanation of the patent/innovation:

 * The method involves transporting a lead halide-containing liquid and a fatty acid cesium-containing liquid to a heated mixer.
 * The raw materials are continuously mixed to produce a photoresponsive nanoparticle.

• Potential applications of this technology:

 * Photovoltaic cells
 * Light-emitting diodes
 * Sensors for detecting light intensity

• Problems solved by this technology:

 * Efficient production of photoresponsive nanoparticles
 * Controlled mixing of raw materials
 * Consistent quality of nanoparticles

• Benefits of this technology:

 * Enhanced performance of photoresponsive devices
 * Cost-effective production process
 * Versatile applications in various industries

• Potential commercial applications of this technology:

 * Nanotechnology industry: for manufacturing advanced materials
 * Electronics industry: for developing high-performance devices
 * Energy sector: for improving solar energy conversion efficiency

• Possible prior art:

 * Prior methods of producing photoresponsive nanoparticles using different mixing techniques
 * Previous patents related to lead halide and fatty acid cesium nanoparticles

1. 1. 1. Unanswered Questions:
         1. How does the method ensure the uniform distribution of lead halide and fatty acid cesium in the nanoparticle?

The abstract does not provide specific details on how the mixing process achieves uniform distribution of the raw materials. Further information on the mixing mechanism would be helpful to understand this aspect.

1. 1. 1. 1. What are the potential challenges or limitations of this method in scaling up production?

The abstract does not address any potential challenges or limitations that may arise when scaling up the production of photoresponsive nanoparticles using this method. Understanding the scalability of the process is crucial for practical implementation in industrial settings.

Original Abstract Submitted

A method for producing a photoresponsive nanoparticle. The method includes a first step of continuously transporting a first raw material liquid containing a lead halide and a second raw material liquid containing a fatty acid cesium to a heated mixer through a transport path, and a second step of mixing the first raw material liquid and the second raw material liquid.