18584570. CATALYST FOR FUEL CELL AND METHOD FOR PREPARING THE SAME simplified abstract (HYUNDAI MOTOR COMPANY)
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CATALYST FOR FUEL CELL AND METHOD FOR PREPARING THE SAME
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CATALYST FOR FUEL CELL AND METHOD FOR PREPARING THE SAME - A simplified explanation of the abstract
This abstract first appeared for US patent application 18584570 titled 'CATALYST FOR FUEL CELL AND METHOD FOR PREPARING THE SAME
The patent application describes a catalyst for a fuel cell, consisting of a crystalline carbon support with a specific surface area of 200 m/g to 500 m/g, and intermetallic active particles of a transition metal and a noble metal supported on the carbon with a particle diameter of at least 3 nm.
- The catalyst includes a crystalline carbon support with a specific surface area between 200 m/g and 500 m/g.
- Intermetallic active particles of a transition metal and a noble metal are supported on the carbon.
- The intermetallic active particles have a particle diameter of 3 nm or larger.
Potential Applications: - Fuel cells - Renewable energy production - Automotive industry
Problems Solved: - Enhancing fuel cell efficiency - Improving energy conversion processes
Benefits: - Increased fuel cell performance - Enhanced energy production - Sustainable energy solutions
Commercial Applications: Title: "Advanced Catalyst for Fuel Cells: Commercial Applications and Market Implications" This technology can be utilized in fuel cell manufacturing for various industries, including automotive, energy production, and renewable energy sectors. The market implications include improved fuel cell efficiency, reduced environmental impact, and increased demand for sustainable energy solutions.
Prior Art: Readers can start their search for prior art related to this technology by exploring patents and research papers on fuel cell catalysts, intermetallic compounds, and carbon-supported catalysts.
Frequently Updated Research: Stay updated on the latest advancements in fuel cell catalyst technology, intermetallic materials research, and sustainable energy solutions to further enhance the understanding and application of this innovative catalyst.
Questions about Fuel Cell Catalysts: 1. What are the key factors influencing the efficiency of fuel cell catalysts? 2. How does the particle size of intermetallic active particles impact fuel cell performance?
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Original Abstract Submitted
A catalyst for a fuel cell includes: a crystalline carbon support having a specific surface area of about 200 m/g to about 500 m/g; and intermetallic active particles of a transition metal and a noble metal, wherein the intermetallic active particles are supported on the crystalline carbon support and have a particle diameter of greater than or equal to about 3 nm.