Search Results - thermal+fusion

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Electrically Gated Solid-State Molecular Thermal Transistor (Case No. 2024-099)
Summary: UCLA researchers have introduced a solid-state thermal transistor that achieves groundbreaking performance and facilitates improved heat flow manipulation. Background: The forefront of thermal management is marked by the exploration of molecular thermal transistors, driven by the quest for more efficient electronic devices. Researchers are...
Published: 10/23/2024   |   Inventor(s): Yongjie Hu, Paul Weiss, Man Li
Keywords(s): ; self-assembled molecule, Composite Material, Doping (Semiconductor), Elastic Modulus Thermal Grease, Electronics & Semiconductors, field-effect transistors (FETs), Functional Materials, heat control, heat controlling devices, infrared thermal imaging, Microelectronics Semiconductor Device Fabrication, molecular design, molecular engineering, molecular junction, Nanomaterials, Optoelectronic materials, Optomechanical Thermal Imaging Transducer, organic field effect transistors, Organic Semiconductor, phase change materials, Rechargeable Battery Thermal Conductivity, self-assembled molecule, Semiconductor, semiconductor chip foundries, Semiconductor Device, Semiconductor Device Fabrication, Semiconductor Ohmic Contact, Semiconductor Risk Assessment, Semiconductor Sapphire, Semiconductors, solid-state thermal transistor, strength-thermal stability, switching reversibility, thermal circuit, thermal compression bonding, thermal conductance, Thermal Energy Storage, thermal fusion, thermal imaging, thermal management systems, thermal stability, thermal switching speed, thermal switching speeds, thermal transistor, Thin-Film Transistor, Transistor, transistors, zzsemiconducting materials
Category(s): Electrical, Electrical > Electronics & Semiconductors, Energy & Environment, Energy & Environment > Energy Generation, Energy & Environment > Energy Storage, Energy & Environment > Energy Transmission, Energy & Environment > Thermal, Electrical > Instrumentation, Materials, Materials > Nanotechnology
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: 7/19/2023   |   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