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Doping of Thorium-229 Into High Bandgap Metal Sulfate Material (Case No. 2025-99Y)
Summary: A UCLA researcher in the Department of Physics has developed a novel method for creating high-bandgap materials doped with thorium-229, enabling the development of advanced nuclear clocks. Background: Thorium-229 is the only known isotope with a nuclear transition low enough to be measured using conventional optical techniques. The combination...
Published: 10/9/2025
|
Inventor(s):
Eric Hudson
Keywords(s):
Clock Signal
,
high-powered laser systems
,
Laser
,
laser alignment
,
Laser Diode
,
lasers
Category(s):
Materials
,
Materials > Functional Materials
,
Optics & Photonics
,
Optics & Photonics > Lasers
,
Electrical
,
Electrical > Electronics & Semiconductors
,
Electrical > Signal Processing
,
Electrical > Sensors
,
Electrical > Instrumentation
,
Electrical > Quantum Computing
,
Energy & Environment
,
Energy & Environment > Thermal
,
Materials > Nanotechnology
,
Materials > Fabrication Technologies
,
Materials > Semiconducting Materials
Device to Produce X-Rays for Use in Imaging (Case No. 2009-627)
Summary Researchers at UC San Diego have developed a compact, addressable flat-panel x-ray source based on pyroelectric / piezoelectric crystals with integrated field emitters. The design produces electron emission by temperature (or stress) cycling of crystals, which then strike a target to generate x-rays. The array architecture enables selectable...
Published: 9/24/2025
|
Inventor(s):
Gil Travish
,
Rodney Yoder
,
James Rosenzweig
Keywords(s):
Category(s):
Electrical
,
Electrical > Signal Processing
,
Electrical > Instrumentation
,
Electrical > Imaging
,
Medical Devices
,
Optics & Photonics
,
Medical Devices > Monitoring And Recording Systems
,
Medical Devices > Medical Imaging
,
Medical Devices > Medical Imaging > X-Ray
Lens-Free Wide-Field Super-Resolution Imaging (Case No. 2010-598)
Summary Researchers at UCLA have developed a lens-free, wide-field super-resolution imaging platform that uses a scanned illumination aperture and computational reconstruction to overcome the pixel size limit and achieve high-resolution imaging across large fields of view. The system captures multiple low-resolution holograms under shifted illumination...
Published: 9/24/2025
|
Inventor(s):
Aydogan Ozcan
,
Waheb Bishara
Keywords(s):
Category(s):
Electrical
,
Electrical > Instrumentation
,
Medical Devices
,
Medical Devices > Medical Imaging
,
Optics & Photonics
,
Optics & Photonics > Holography
,
Optics & Photonics > Microscopy
,
Optics & Photonics > Spectroscopy
Method for Reducing Process Variation-Induced Threshold Voltage Mismatch in FD-SOI Transistors (Case No. 2025-271)
Reference: UCLA Case No. 2025-271 Please reach out to our office for more information.
Published: 10/15/2025
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Inventor(s):
Subramanian Iyer
,
Siyun Qiao
,
Jacklyn Zhu
,
Samuel Wang
Keywords(s):
device stability
,
Electronics & Semiconductors
,
frequency modulation
,
Integrated Circuit
,
Integrated Circuit Via (Electronics)
,
Microelectronics Semiconductor Device Fabrication
,
Mixed-Signal Integrated Circuit
,
Semiconductor
,
Semiconductor Device
,
Semiconductor Device Fabrication
,
Semiconductors
,
Signal Processing
,
Silicon
,
Transistor
,
transistors
Category(s):
Electrical
,
Electrical > Signal Processing
,
Electrical > Instrumentation
,
Electrical > Electronics & Semiconductors
,
Software & Algorithms
,
Software & Algorithms > Communication & Networking
Monitoring Structural Health Using Diffractive Optical Processors (Case No. 2025-201)
Summary: UCLA researchers in the Department of Electrical and Computer Engineering have developed a novel structural health monitoring system that is highly accurate and cost effective, addressing limitations in current infrastructure and civil health monitoring and a rise in public safety concerns. Background: The need for structural health monitoring...
Published: 7/25/2025
|
Inventor(s):
Aydogan Ozcan
,
Ertugrul Taciroglu
,
Yuntian Wang
,
Yuhang Li
Keywords(s):
3D structures
,
Adaptive Optics
,
AI-generated images and content
,
all-optical diffractive computing
,
all-optical transformation
,
analog computing
,
analog optical computing
,
Analogue Electronics
,
Artifical Intelligence (Machine Learning, Data Mining)
,
Artificial Intelligence
,
artificial intelligence algorithms
,
artificial intelligence augmentation
,
artificial intelligence/machine learning models
,
artificial-intelligent materials
,
civil engineering
,
civil infrastructure
,
civil monitoring
,
computational imaging
,
computational imaging task
,
Construction
,
deep diffractive network
,
Diffraction
,
diffractive design
,
diffractive image reconstruction
,
diffractive network
,
diffractive processor
,
diffractive surface
,
digital image reconstruction
,
electromagnetic spectrum
,
Electro-Optics
,
Image Analysis
,
Image Processing
,
Image Resolution
,
image restoration
,
image signal processing
,
Imaging
,
Infrastructure
,
Lens (Optics)
,
linear optics
,
Nanostructure
,
optical processor
,
optically-guided structural monitoring
,
Optics
,
passive light-matter interactions
,
security imaging
,
Signal Reconstruction
,
Structural health monitoring
,
structural health monitoring (SHM)
,
structure monitoring
,
Structures
Category(s):
Electrical
,
Electrical > Signal Processing
,
Electrical > Imaging
,
Materials
,
Materials > Construction Materials
,
Electrical > Visual Computing
,
Electrical > Computing Hardware
,
Electrical > Instrumentation
,
Energy & Environment
,
Energy & Environment > Energy Efficiency
,
Software & Algorithms
,
Software & Algorithms > Artificial Intelligence & Machine Learning
,
Software & Algorithms > Image Processing
,
Software & Algorithms > Programs
Multi-Sightline Photonic Spectroscopic Unit for Sensing (Case No. 2025-164)
Summary: UCLA researchers from the Department of Physics & Astronomy have developed a compact, low-cost, energy-efficient, and high-resolution photonic spectrograph platform that enables quantitative sensing of atmospheric gases such as methane across multiple lines of sight. Background: Accurate, high-resolution monitoring of methane emissions...
Published: 7/28/2025
|
Inventor(s):
Pradip Gatkine
Keywords(s):
Category(s):
Chemical > Chemical Sensors
,
Chemical
,
Electrical > Electronics & Semiconductors
,
Electrical > Instrumentation
,
Electrical > Sensors
,
Energy & Environment > Energy Efficiency
,
Energy & Environment > Energy Transmission
,
Optics & Photonics > Spectroscopy
Aydogan Ozcan - Signal Processing Technology Portfolio
Diffractive Waveguides (Case No. 2025-012) Innovation: Professor Aydogan Ozcan and his team have developed diffractive waveguides designed for optimized transmission across spectral, spatial, and polarization-specific applications. These diffractive waveguides can be cascaded together to operate at any desired wavelength simultaneously. Additionally,...
Published: 7/17/2025
|
Inventor(s):
Keywords(s):
Category(s):
Electrical
,
Electrical > Signal Processing
,
Electrical > Electronics & Semiconductors
,
Electrical > Instrumentation
,
Optics & Photonics
Blurryscope (Case No. 2025-070)
Summary: Researchers in the UCLA Department of Electrical and Computer Engineering have developed a cost-effective digital scanning microscope to improve pathological screening. Background: High quality pathological imaging systems are essential to carefully assess tissue sectioning samples and produce accurate diagnoses for patients. Digitization...
Published: 6/11/2025
|
Inventor(s):
Aydogan Ozcan
,
Michael Fanous
,
Christopher Seybold
Keywords(s):
Category(s):
Electrical
,
Electrical > Imaging
,
Electrical > Instrumentation
,
Life Science Research Tools
,
Life Science Research Tools > Lab Equipment
,
Life Science Research Tools > Microscopy And Imaging
,
Optics & Photonics
,
Optics & Photonics > Microscopy
,
Software & Algorithms
,
Software & Algorithms > Artificial Intelligence & Machine Learning
,
Software & Algorithms > Image Processing
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: 3/6/2025
|
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
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: 2/14/2025
|
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
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