Search Results - electrodes

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Carrier Storage Frequency Divider Using Silicon PIN Diodes (Case No. 2025-023)
Summary: Researchers in UCLA’s Department of Electrical and Computer Engineering have designed and fabricated an innovative device capable of frequency division at the Terahertz range, featuring low power consumption, quadrature outputs, and high sensitivity. Background: Traditional electronic and optical devices struggle to operate at the...
Published: 4/10/2025   |   Inventor(s): Sidharth Thomas, Aydin Babakhani, Benyamin Fallahi Motlagh
Keywords(s): Analogue Electronics, Antennas/Wireless, artificial electromagnetic materials, Bandwidth (Signal Processing), Bioelectromagnetics, bioelectronics, bistable electroactive polymer, Cardiac Electrophysiology, Consumer Electronics, Continuous-Wave Radar, Digital Electronics, Digital Signal Processing, Electrical Engineering, Electroactive Polymers, Electrocatalyst, electrochemical sensors, Electrode, Electrode 3D Printing, electrodeposition, electrodes, Electroencephalography, Electroencephalography (EEG), Electroencephalography Microsecond Neurofeedback, Electrolyte, electromagnetic, Electromagnetism, Electron, electron emittance, Electron Gun, Electronics & Semiconductors, energy-efficient wireless communication, Extremely High Frequency, high-frequency signals, image signal processing, Imaging, Integrated Circuit, low-power device, Optical networks, PIN Diode, power conversion efficiency, Radar, Radar / Antennae, Remote Sensing, Semiconductor, Semiconductor Device, Semiconductors, signal decoding, Signal Processing, Silicon, Synthetic aperture radar (SAR), Wireless, wireless communication, wireless connectivity, Wireless Sensor Network, wireless spectrum
Category(s): Electrical > Electronics & Semiconductors, Electrical > Electronics & Semiconductors > Circuits, Electrical, Electrical > Wireless, Electrical > Signal Processing
Expanded Graphite Reinforced Shaped Polymer Composites
Executive Summary Polymeric composites are used in a myriad of applications including automotive, aerospace, industrial and consumer markets. Balancing properties such as weight, cost, mechanical and electrical properties is key to developing a successful product. MSU researchers have developed an inexpensive method of preparing a shaped polymer composite...
Published: 6/19/2023   |   Inventor(s): Lawrence Drzal, Hiroyuki Fukushima
Keywords(s): Carbon Nanotubes, Composites, Electrodes, Expanded Graphite, Graphene, Graphite Nanoplatelets
Category(s): Nanotechnology, Advanced Materials
Soft, Stretchable, and Strain-Insensitive Bioelectronics 2022-201
Summary: UCLA Researchers in the Department of Electrical and Computer Engineering have developed a library of soft, stretchable biomaterials that decouple bioelectronic interfaces resulting in improved sensing and neural stimulation devices that can withstand significant strain. Background: The interface between electronic devices and biological...
Published: 2/14/2025   |   Inventor(s): Sam Emaminejad, Qibing Pei, Brian Bo Wang, Yichao Zhao
Keywords(s): Bioelectromagnetics, bioelectronics, Biomaterial, Biosensor, electrodes, Functional Materials, Materials, Medical Devices and Materials, Nanomaterials, Nanosensor, nanostructured materials, neural stimulation, strain insensitive, tissue-electronic interface
Category(s): Materials, Materials > Functional Materials, Electrical, Electrical > Electronics & Semiconductors, Materials > Nanotechnology, Medical Devices, Medical Devices > Neural Stimulation
In vivo sensors using cerium nanoparticles
New electrode reduces material cost and extends operational life of glucose monitoring sensors Background The global market for electrode-based blood glucose test strips is $5 billion a year and steadily growing.1 Competition in this market is fierce, especially with the introduction of generic test strips and commodity pricing. Most commercially available...
Published: 11/1/2023   |   Inventor(s): Adam Heller
Keywords(s): Chemical analysis, Diabetes, Electrodes, Medical devices
Category(s): Life sciences > Medical technology > Medical devices