NANOPARTICLE FLUOROPOLYMER ELECTRODE

Organization Name

KING FAHD UNIVERSITY OF PETROLEUM AND MINERALS

Inventor(s)

Mohammad Nahid Siddiqui of Dhahran (SA)

Mohammad Qamar of Dhahran (SA)

Alaaldin Mohamed Abdalla Adam of Dhahran (SA)

Munzir H. Suliman of Dhahran (SA)

NANOPARTICLE FLUOROPOLYMER ELECTRODE - A simplified explanation of the abstract

This abstract first appeared for US patent application 18603283 titled 'NANOPARTICLE FLUOROPOLYMER ELECTRODE

Simplified Explanation

This patent application discloses a noble metal-free nanocomposite catalyst made of a transition metal phosphide supported on ultrathin interconnected carbon nanosheets for use as an efficient and low-cost electrocatalyst in the production of hydrogen through water electrolysis.

• Transition metal phosphide catalyst supported on carbon nanosheets
• Efficient and low-cost electrocatalyst for hydrogen production
• Electrochemical cell with working electrode coated with the catalyst for water electrolysis

Key Features and Innovation

• Noble metal-free nanocomposite catalyst
• Ultrathin interconnected carbon nanosheets support
• Transition metal phosphide catalyst for electrocatalysis
• Efficient hydrogen production through water electrolysis

Potential Applications

The technology can be used in various applications such as:

• Renewable energy production
• Fuel cells
• Water splitting for hydrogen fuel production

Problems Solved

• High cost of noble metal catalysts
• Inefficient hydrogen production methods
• Environmental impact of traditional catalysts

Benefits

• Cost-effective catalyst
• Improved efficiency in hydrogen production
• Environmentally friendly alternative to noble metal catalysts

Commercial Applications

1. 1. 1. Electrolysis Catalyst for Hydrogen Production: Market Implications and Potential Commercial Uses

Prior Art

Research on transition metal phosphide catalysts for electrocatalysis in hydrogen production.

Frequently Updated Research

Ongoing studies on the optimization of transition metal phosphide catalysts for enhanced electrocatalytic performance.

Questions about Electrolysis Catalysts

What are the key advantages of using transition metal phosphide catalysts in hydrogen production?

Transition metal phosphide catalysts offer a cost-effective and efficient alternative to noble metal catalysts, making them ideal for large-scale hydrogen production.

How do ultrathin interconnected carbon nanosheets enhance the performance of the catalyst?

The ultrathin interconnected carbon nanosheets provide a high surface area and excellent conductivity, improving the stability and efficiency of the catalyst in electrocatalytic reactions.

Original Abstract Submitted

A noble metal free nanocomposite of a transition metal phosphide catalyst supported on ultrathin interconnected carbon nanosheets and its use as an efficient low cost electrocatalyst are disclosed. An electrochemical cell comprising a working electrode coated with the electrocatalyst for the production of hydrogen by electrolysis of water.