Robert bosch gmbh (20240258547). RADICAL SCAVENGERS FOR FUEL CELLS simplified abstract
RADICAL SCAVENGERS FOR FUEL CELLS
Organization Name
Inventor(s)
Ulrich Berner of Stuttgart (DE)
Charles Tuffile of Swansea MA (US)
RADICAL SCAVENGERS FOR FUEL CELLS - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240258547 titled 'RADICAL SCAVENGERS FOR FUEL CELLS
Simplified Explanation: A fuel cell proton exchange membrane (PEM) with a peroxide decomposition radical scavenger material, which includes specific elements like Ta, W, Dy, Mo, La, Nd, V, Gd, Er, or Sm, mixed with Ce/CeO(0.5≤x≤4) and Mn/MnO(0.5≤x≤4).
- The fuel cell PEM contains a peroxide decomposition radical scavenger material.
- The material includes elements like Ta, W, Dy, Mo, La, Nd, V, Gd, Er, or Sm.
- It is mixed with Ce/CeO and Mn/MnO to enhance its performance.
Potential Applications: This technology can be used in fuel cells for various applications such as automotive, stationary power generation, and portable electronics.
Problems Solved: The peroxide decomposition radical scavenger material helps improve the efficiency and longevity of fuel cells by reducing the harmful effects of peroxide buildup.
Benefits: Enhanced performance, increased durability, and improved reliability of fuel cells using this innovative material.
Commercial Applications: Title: Advanced Fuel Cell Technology for Enhanced Performance This technology can be commercialized for use in automotive fuel cells, stationary power generation systems, and portable electronic devices, offering improved efficiency and reliability in various industries.
Questions about Fuel Cell Proton Exchange Membrane with Peroxide Decomposition Radical Scavenger Material: 1. How does the peroxide decomposition radical scavenger material improve the performance of fuel cells? 2. What are the potential long-term benefits of using this technology in different applications?
Original Abstract Submitted
a fuel cell proton exchange membrane (pem) includes a peroxide decomposition radical scavenger material, where the peroxide decomposition radical scavenger material is m/mo(1≤x≤3), and m is ta, w, dy, mo, la, nd, v, gd, er, or sm. the peroxide decomposition radical scavenger material may be mixed with at least one of ce/ceo(0.5≤x≤4) and mn/mno(0.5≤x≤4).