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Search Results - nanostructured+materials
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Dynamic Extension of the Eyebox for Maxwellian View AR Waveguides (Case No. 2024-163)
Summary: Researchers in the Department of Electrical & Computer Engineering have developed a new metasurface material that improves the size and resolution of augmented reality overlays. Background: Augmented reality (AR) waveguide displays have revolutionized the way users can interact with virtual content overlaid in the real world. High...
Published: 11/4/2024
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Inventor(s):
Chee Wei Wong
,
Hyunpil Boo
Keywords(s):
artificial electromagnetic materials
,
artificial-intelligent materials
,
Augmented Reality
,
augmented reality (AR)
,
bacterial nanocellulose
,
Carbon Nanotube
,
Composite Materials
,
Construction Materials
,
Extended reality
,
Functional Materials
,
intercalated materials
,
liquid crystal nanofibers
,
Materials
,
Medical Devices and Materials
,
meta materials
,
metal nanocomposites
,
metasurfaces
,
microarchitectured materials
,
Microfluidics Nanosphere
,
Mixed Reality
,
nanobody
,
nanocomposite scintillators
,
Nanocomposites
,
Nanocrystal
,
nanocrystalline metals
,
nanodispersion
,
Nanoelectronics
,
Nanoemulsion droplet
,
Nanofiber
,
nanograined metals
,
Nanomaterials
,
Nanoparticle
,
Nanoparticles
,
nanophotonic
,
nanophotonic structures
,
nanophotonics
,
Nanosensor
,
Nanostructure
,
nanostructured materials
,
Nanotechnology
,
Optoelectronic materials
,
photonic materials
,
Raw materials supplier
,
Toxicity Of Nanomaterials
,
Ultrahard materials/abrasives
,
Virtual Reality
,
Virtual Reality Braille Haptic Technology Joule Heating
,
Virtual Reality Occupational Therapy Exercise Machine
,
Water Purification, Nanofiltration, Ultrafiltration
,
zzsemiconducting materials
Category(s):
Software & Algorithms
,
Software & Algorithms > Ar/Vr
,
Materials
,
Materials > Composite Materials
,
Materials > Functional Materials
,
Materials > Nanotechnology
Nanocomposite Scintillators (Case No. 2024-126)
Summary: UCLA researchers from the Department of Materials Science and Engineering have developed a novel nanocomposite material for high-efficiency radiation detection and monitoring. Background: Scintillators are materials that emit light when they absorb radiation, such as gamma rays or x-rays. The photons generated by the scintillators can...
Published: 5/15/2024
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Inventor(s):
Qibing Pei
,
Ziqing Han
Keywords(s):
adhesive material
,
Algorithm Optical Coherence Tomography
,
anode material
,
artificial electromagnetic materials
,
artificial-intelligent materials
,
background radiation
,
Biomaterial
,
Biomaterial 3D Printing
,
bulk material
,
Composite Material
,
composite scintillators
,
Computed tomography
,
Computerized Tomography scan (CT)
,
Diffraction Tomography
,
Drug Delivery Microporous Material
,
fast scintillators
,
gamma spectroscopy
,
High resolution computed tomography
,
high-Z organometallics
,
hole transporting material
,
Hyperelastic Material
,
intercalated materials
,
material characterization
,
Materials
,
meta materials
,
metal nanocomposites
,
microarchitectured materials
,
nanocomposite scintillators
,
Nanocomposites
,
Nanomaterials
,
Nanoparticle
,
Nanoparticles
,
nanostructured materials
,
neutrino detection
,
Optical Tomography
,
Optoelectronic materials
,
photonic materials
,
positron emission tomography (PET)
,
radiation detection
,
Raw materials supplier
,
scintillators
,
second harmonic generation
,
Smart Material
,
Solar Cell Metamaterial
,
Surgical Instrument Optical Coherence Tomography
,
suturable biomaterial
,
X-Ray Computed Tomography
Category(s):
Chemical
,
Chemical > Chemical Sensors
,
Materials
,
Materials > Functional 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: 9/18/2024
|
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
2023-056 A Method to Make High Strength, High Ductility, and High Electrical Conductivity Metals
Summary: UCLA researchers in the Department of Materials Science and Engineering have developed ultra-strong metal nanocomposites with high ductility, thermal stability, and electrical conductivity. Background: In many different applications, including those in the aerospace, defense, electronics, energy, and transportation sectors, nanocrystalline...
Published: 12/12/2023
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Inventor(s):
Yinmin Wang
,
Zan Li
Keywords(s):
graphene
,
high-strength
,
metal nanocomposites
,
Metals
,
Nanocrystal
,
nanocrystalline metals
,
nanodispersion
,
nanograined metals
,
Nanomaterials
,
Nanoparticle
,
Nanoparticles
,
nanostructured materials
,
Nanotechnology
,
reduced graphene oxide
,
strength-ductility
,
strength-electrical conductivity
,
strength-thermal stability
Category(s):
Materials
,
Materials > Composite Materials
,
Materials > Functional Materials
,
Materials > Metals
,
Materials > Fabrication Technologies