Search Results - quantum+dot

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Efficient One-Step Chemical Conversion of MXene Into Quantum Dots (Case No. 2025-246)

Summary: UCLA researchers in the Department of Chemistry and Biochemistry have developed a novel one-step method for producing MXene quantum dots with precise size control in an environmentally safe manner. Background: Quantum dots are widely used in bioimaging due to their tunable optical, electrical, and chemical properties. However, traditional...

Published: 5/6/2025 | Inventor(s): Paul Weiss, Haiyue Huang, Judy Cheng

Keywords(s): Biochemistry, bioimaging, Biomaterial, Catalysts, Chemical, Chemical Manufacturing & Industrial/Bulk Chemicals, energy conversion, energy conversion applications, Functional Materials, labeling, material science, Materials, Nanomaterials, photoluminescence, Quantum Dot

Category(s): Chemical, Chemical > Synthesis, Materials, Materials > Semiconducting Materials

HgTe Quantum Dots With Near Untiy Photoluminescent Quantum Yields in the Near and Short-Wave Infrared (Case No. 2024-256)

Summary: Researchers in UCLA’s Department of Chemistry and Biochemistry have developed an innovative synthesis technique to create ultrasmall Mercury Telluride (HgTe) quantum dots, offering tunable optoelectronic properties and high photoluminescent quantum yields across the infrared spectrum. Background: HgTe quantum dots are gaining popularity...

Published: 4/10/2025 | Inventor(s): Justin Caram, Belle Coffey

Keywords(s): Biochemistry, Chemical, Electronics & Semiconductors, Imaging, Infrared, infrared thermal imaging, Light-Emitting Diode, Materials, Microscale Chemistry, Nanomaterials, nanophotonics, near-infrared, Optoelectronic materials, Optoelectronics, photodetection, photoluminescence, photostability, Quantum Dot, Semiconductor, Semiconductors

Category(s): Electrical > Imaging, Chemical, Optics & Photonics, Materials > Nanotechnology, Chemical > Instrumentation & Analysis, Electrical > Sensors, Materials > Semiconducting Materials

A New ADC Architecture (Case No. 2023-276)

Summary: UCLA researchers in the Department of Electrical and Computer Engineering have developed a novel analog-digital conversion (ADC) Architecture that achieves high-speed, high-resolution signal conversion with reduced power consumption and increased linearity. Background: High-speed, high-resolution analog-digital converters (ADCs) are what...

Published: 2/14/2025 | Inventor(s): Utkarsh Sharma, Behzad Razavi

Keywords(s): Computer Architecture, Consumer Electronics, Digital Electronics, Digital Signal Processing, Integrated Circuit, processor design, quantum communication, Quantum Computer, Quantum Dot, quantum error correction (QEC), quantum incompressible fluid, quantum key, quantum network, quantum processing, quantum processor, Signal Processing, trapped ion quantum processor

Category(s): Electrical > Signal Processing, Electrical > Computing Hardware