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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
Charge Storage Device Architecture for Increased Energy and Power Density (Case No. 2009-392)
Summary: UCLA researchers have developed a novel electrochemical capacitive energy storage device with high energy and power density, addressing limitations in current energy storage technologies and meeting the demands of increasing electrification. Background: Current energy storage devices, such as lithium-ion batteries and electrochemical capacitors,...
Published: 4/28/2025
|
Inventor(s):
Bruce Dunn
,
George Gruner
,
John Wang
,
Sarah Tolbert
,
Torsten Brezesinski
Keywords(s):
battery-less
,
battery-less IoT
,
Capacitor
,
Charge Carrier
,
charge collection efficiency
,
charge extraction
,
charge sharing
,
charge summing
,
charge-transfer
,
clean energy
,
electric vehicle charging
,
energy conversion
,
Energy Density
,
Energy Efficiency
,
Energy Harvesting
,
energy management
,
Energy Management System
,
Energy positive
,
energy-efficient
,
grid energy
,
Lithium Battery
,
Lithium-Ion Battery
,
material characterization
,
Nanoelectronics
,
Nanomaterials
,
Nanoparticles
,
Nanostructure
,
nanostructured materials
,
Nanotechnology
,
Rechargeable Battery
,
Rechargeable Battery Thermal Conductivity
,
Renewable Energy
,
Renewable energy sources
,
Solar Energy
,
supercharger
,
Surface Charge
,
Thermal Energy Storage
,
wireless energy harvesting
Category(s):
Materials
,
Materials > Nanotechnology
,
Energy & Environment
,
Energy & Environment > Energy Efficiency
,
Energy & Environment > Energy Storage
,
Electrical
,
Electrical > Electronics & Semiconductors
Electrolyzer Column (Case No. 2025-032)
Summary: UCLA researchers in the Department of Chemical Engineering have developed a novel system for efficiently converting carbon dioxide to liquid fuel for sustainable energy storage and utilization. Background: The conversion of carbon dioxide (CO2) into high-energy-density liquid fuel presents a promising pathway for sustainable energy storage...
Published: 8/13/2025
|
Inventor(s):
Carlos Morales Guio
,
Philippe Sautet
Keywords(s):
Carbon Dioxide
,
clean energy
,
conversion efficiency photoelectric
,
Electrocatalyst
,
energy conversion
,
Energy Generation & Storage
,
power conversion efficiency
,
Power Electronics
,
Renewable Energy
,
renewable fuel
Category(s):
Energy & Environment > Energy Storage > Fuel Cells
,
Energy & Environment > Energy Efficiency
Method and System for Using Quantum Incompressible Fluid to Achieve Fusion from Cavitation (UCLA Case No. 2022-110)
Summary: UCLA researchers in the Department of Physics and Astronomy have developed a novel system and method to achieve thermonuclear fusion in a laboratory scale device. Background: Many energy experts believe that nuclear has a key role to play as a clean, stable, and readily-available source of power, despite a contentious history. Nuclear power...
Published: 7/17/2025
|
Inventor(s):
Seth Putterman
,
John Koulakis
Keywords(s):
acoustics
,
cavitation
,
clean energy
,
Fermi exclusion
,
Fermi fluid
,
fusion
,
fusion cavitation
,
incompressible fluid
,
molten salt
,
nuclear fusion
,
quantum incompressible fluid
,
sonoluminescence
,
thermal fusion
,
thermonuclear fusion
,
zero-carbon emission power
Category(s):
Electrical
,
Electrical > Instrumentation
,
Materials
,
Materials > Functional Materials
,
Energy & Environment > Energy Generation