CHELATING AGENTS FOR QUANTUM DOT PRECURSOR MATERIALS IN COLOR CONVERSION LAYERS FOR MICRO-LEDS

Organization Name

Applied Materials, Inc.

Inventor(s)

Yingdong Luo of Newark CA (US)

Daihua Zhang of Los Altos CA (US)

Hou T. Ng of Campbell CA (US)

Sivapackia Ganapathiappan of Los Altos CA (US)

Nag B. Patibandla of Pleasanton CA (US)

CHELATING AGENTS FOR QUANTUM DOT PRECURSOR MATERIALS IN COLOR CONVERSION LAYERS FOR MICRO-LEDS - A simplified explanation of the abstract

This abstract first appeared for US patent application 18444277 titled 'CHELATING AGENTS FOR QUANTUM DOT PRECURSOR MATERIALS IN COLOR CONVERSION LAYERS FOR MICRO-LEDS

Simplified Explanation

The patent application describes a photocurable composition containing quantum dots, quantum dot precursor materials, a chelating agent, monomers, and a photoinitiator. Quantum dots emit visible light in response to UV or visible light, with the composition designed for polymerization upon exposure to specific wavelengths.

• Quantum dots emit visible light in response to UV or visible light.
• Composition includes quantum dot precursor materials, chelating agent, monomers, and photoinitiator.
• Chelating agent binds to quantum dot precursor materials.
• Photoinitiator triggers polymerization of monomers upon exposure to specific wavelengths.

Key Features and Innovation

• Incorporation of quantum dots for emission of visible light.
• Chelating agent facilitates binding of quantum dot precursor materials.
• Photoinitiator enables polymerization of monomers upon exposure to specific wavelengths.

Potential Applications

The technology could be used in:

• 3D printing
• Microfabrication
• Biomedical imaging

Problems Solved

• Efficient visible light emission
• Controlled polymerization process

Benefits

• Enhanced visibility in applications
• Precise polymerization control

Commercial Applications

• Potential applications in 3D printing, microfabrication, and biomedical imaging could lead to advancements in these fields.

Prior Art

Readers can explore prior research on quantum dot-based photocurable compositions in the field of materials science and nanotechnology.

Frequently Updated Research

Stay informed about the latest developments in quantum dot technology and photocurable compositions for potential advancements in various industries.

Questions about Quantum Dot Photocurable Composition

What are the key components of the photocurable composition?

The key components include quantum dots, quantum dot precursor materials, a chelating agent, monomers, and a photoinitiator.

How does the chelating agent contribute to the composition's functionality?

The chelating agent binds to the quantum dot precursor materials, facilitating their incorporation into the composition.

Original Abstract Submitted

A photocurable composition includes quantum dots, quantum dot precursor materials, a chelating agent, one or more monomers, and a photoinitiator. The quantum dots are selected to emit radiation in a first wavelength band in the visible light range in response to absorption of radiation in a second wavelength band in the UV or visible light range. The second wavelength band is different than the first wavelength band. The quantum dot precursor materials include metal atoms or metal ions corresponding to metal components present in the quantum dots. The chelating agent is configured to chelate the quantum dot precursor materials. The photoinitiator initiates polymerization of the one or more monomers in response to absorption of radiation in the second wavelength band.