Search Results - soft+electrical+circuits

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Electrical Stimulation for Acute Stroke (Case No. 2020-787)
Summary: Researchers at the UCLA Department of Neurology have developed an individualized method of delivering non-invasive electrical stimulation to treat acute human ischemic stroke. Background: Stroke is a leading cause of mortality and morbidity across the world. Over 80% of strokes are ischemic due to blockage of blood vessels, causing a low...
Published: 12/6/2024   |   Inventor(s): Mersedeh Bahr Hosseini, Jeffrey Saver, Marom Bikson
Keywords(s): Acute ischemic stroke, CNS Rehabilitation, Electrical, Electrical Engineering, Electrical stimulation, Neurocognitive, Neuroimaging, Neurointervention, neurological disorders, Neurology, Neuromodulation, Neuron, Neuropathology, Neuropsychological Test, neuroscience, Neurostimulation, Neurosurgery, soft electrical circuits, Stroke, Stroke Geriatrics Energy Accounting Local Area Network, stroke rehabilitation, stroke therapeutics, Transcutaneous Electrical Nerve Stimulation
Category(s): Electrical, Electrical > Flexible Electronics, Medical Devices, Medical Devices > Cardiac, Medical Devices > Hospital Systems
Chip-Scale Monolithic Led-Photovoltaic Voltage Boost Conversion (Case No. 2025-033)
Summary: UCLA researchers in the Department of Materials Science and Engineering have developed a non-switching optoelectronic voltage conversion platform capable of voltage boost conversion at low input voltages on a miniature scale. Background: Voltage conversion is crucial for powering industrial systems, home appliances, electric vehicles, and...
Published: 12/4/2024   |   Inventor(s): Pattabhi "Aaswath" Raman, Parthiban Santhanam
Keywords(s): Application-Specific Integrated Circuit, Audio Power Amplifier, Autonomous Energy, clean energy, clean energy consumption, Compressed Air Energy Storage, Concentrated Solar Power, Concentrated Solar Power Chemical Engineering, conversion efficiency photoelectric, Doping (Semiconductor), Electronics & Semiconductors, Energy & Water, Energy Balance (Biology), energy conversion, energy conversion applications, Energy Density, Energy Density Boiling Point, Energy Density Silicide, Energy Density Strong Interaction, Energy Efficiency, energy efficient IoT, Energy Generation & Storage, Energy Generation, Transmission, or Storage, Energy Harvesting, Energy Harvesting Evaporation, energy management, Energy Management System, Energy positive, energy recycle, Energy Recycling, Energy Security , high-powered laser systems, Integrated Circuit, Integrated Circuit Standing Wave, Integrated Circuit Via (Electronics), interaction-powered, low-power device, Microelectronics Semiconductor Device Fabrication, Mixed-Signal Integrated Circuit, Monolithic Microwave Integrated Circuit, nanophotonic, nanophotonic structures, nanophotonics, Network Analysis (Electrical Circuits), Neuromorphic circuits, OLED, Optoelectronics, Optoelectronics Waveguide (Electromagnetism), Organic Semiconductor, people-as-power, photonic, Photonic Integrated Circuit, photonic materials, Photonic structures, Photonics, power amplifier, Power Amplifier Circuit, power conversion efficiency, Power distribution & grids, Power Electronics, Power Transmission, Printed Circuit Board, self-powered wireless sensor solutions, Semiconductor, semiconductor chip foundries, Semiconductor Device, Semiconductor Device Fabrication, Semiconductor Ohmic Contact, Semiconductor Risk Assessment, Semiconductor Sapphire, Semiconductors, Short Circuit, soft electrical circuits, thermal circuit, Three-Dimensional Integrated Circuit, wearable electronics, zero-carbon emission power, zzsemiconducting materials
Category(s): Electrical, Electrical > Electronics & Semiconductors, Materials, Materials > Semiconducting Materials, Electrical > Electronics & Semiconductors > Circuits, Energy & Environment, Energy & Environment > Energy Efficiency, Optics & Photonics
Liquid Metal Printing Technique via Optical Maskless Lithography (Case No. 2024-031)
Summary: Researchers in the UCLA Department of Materials Science and Engineering have developed a facile, rapid method to print soft, wearable electronics. Background: Soft electrical circuits have garnered significant interest in a broad range of emerging technologies, including wearable electronics, brain-machine interfaces, and soft robotics....
Published: 10/15/2024   |   Inventor(s): Ximin He, Dong Wu
Keywords(s): Coating, Coatings, Adhesives, & Inks, Electronics & Semiconductors, Fabrication Technologies, gallium-based liquid metals, General Device Coatings, Liquid metal particles, liquid metals, Metals, Microelectronics Semiconductor Device Fabrication, Polymer, Polymers, scalable fabrication, Semiconductor Device Fabrication, soft electrical circuits, soft electronics, wearable electronics, wearable sensors
Category(s): Chemical, Chemical > Polymers, Chemical > Coatings, Adhesives & Inks, Electrical, Electrical > Electronics & Semiconductors, Electrical > Sensors, Electrical > Instrumentation, Electrical > Flexible Electronics, Materials, Materials > Fabrication Technologies, Materials > Composite Materials, Materials > Metals