Search Results - methane+reformer+hydrogen+production

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Surface Oxophilic Single Atom Decoration of PT Catalyst for Anion Exchange Membrane Fuel Cells (Case No. 2025-263)

Summary: Researchers at UCLA's Department of Chemistry and Biochemistry have developed a novel catalyst design using oxophilic single-atom decorations that enhances the performance and durability of platinum (Pt) catalysts in alkaline exchange membrane fuel cells. Background: Hydrogen fuel cells are a promising alternative to internal combustion...

Published: 6/24/2025 | Inventor(s): Xiangfeng Duan, Yu Huang, Chengzhang Wan

Keywords(s): anion exchange membrane fuel cells (AEMFCs), Catalysts, catalytic hydrogenation, clean energy, clean energy consumption, clean material production, Composite Material, Composite Materials, Construction Materials, Electrocatalyst, electrochemically active surface area, high-durability catalysts, Hydrogen, Hydrogen oxidation reaction, hydrogen oxidation reaction (HOR), hydrogen production, low overpotential catalysis, mass activity, material science, Materials, meta materials, Methane Reformer Hydrogen Production, microarchitectured materials, Nanomaterials, nanostructured materials, Nanotechnology, oxygen oxidation reaction, oxygen reduction reaction (ORR), Platinum group metal catalysts, proton exchange membrane fuel cells (PEMFCs), proton exchange water membrane electrolyzer (PEMWE), Rhodium-decorated Platinum nanowires (SARh-PtNW), specific activity, transition metal catalysts

Category(s): Materials, Materials > Nanotechnology, Materials > Functional Materials, Energy & Environment, Energy & Environment > Energy Generation, Energy & Environment > Energy Efficiency, Energy & Environment > Energy Transmission, Chemical, Chemical > Chemical Processing & Manufacturing, Chemical > Synthesis, Chemical > Catalysts

2021-194 GASEOUS HYDROCARBON SELF-CATALYZING SOLAR REFORMING AND SOLID CARBON DEPOSITION

SUMMARY: UCLA researchers in the Department of Mechanical and Aerospace Engineering have developed a method for green hydrogen production through high flux solar heating and a porous substrate. BACKGROUND: With populations rising and the search for more sustainable sources of energy accelerating, hydrogen has been touted as a desirable sustainable...

Published: 2/14/2025 | Inventor(s): Timothy Fisher

Keywords(s): Concentrated Solar Power Chemical Engineering, Energy Efficiency, Energy Generation & Storage, Energy Generation, Transmission, or Storage, Environmental Remediation, Functional Materials, Hydrogen, Methane, Methane Reformer, Methane Reformer Hydrogen Production, Renewable Energy, Solar Cell, Solar Energy, Thermal Energy Storage

Category(s): Mechanical, Materials, Materials > Functional Materials, Energy & Environment > Energy Efficiency