18284328. MATERIALS, PROCESS AND FABRICATION TECHNOLOGY FOR QUANTUM DOT COLOR CONVERSION FILTER BY SENSITIZED POLYMERIZATION simplified abstract (Sony Group Corporation)
Contents
- 1 MATERIALS, PROCESS AND FABRICATION TECHNOLOGY FOR QUANTUM DOT COLOR CONVERSION FILTER BY SENSITIZED POLYMERIZATION
- 1.1 Organization Name
- 1.2 Inventor(s)
- 1.3 MATERIALS, PROCESS AND FABRICATION TECHNOLOGY FOR QUANTUM DOT COLOR CONVERSION FILTER BY SENSITIZED POLYMERIZATION - A simplified explanation of the abstract
- 1.4 Potential Applications
- 1.5 Problems Solved
- 1.6 Benefits
- 1.7 Commercial Applications
- 1.8 Prior Art
- 1.9 Frequently Updated Research
- 1.10 Questions about Quantum Dot-Based Color Conversion Filters
- 1.11 Original Abstract Submitted
MATERIALS, PROCESS AND FABRICATION TECHNOLOGY FOR QUANTUM DOT COLOR CONVERSION FILTER BY SENSITIZED POLYMERIZATION
Organization Name
Inventor(s)
Dennis Chercka of Stuttgart (DE)
Clemens Wall of Stuttgart (DE)
Nadejda Krasteva of Stuttgart (DE)
Gabriele Nelles of Stuttgart (DE)
MATERIALS, PROCESS AND FABRICATION TECHNOLOGY FOR QUANTUM DOT COLOR CONVERSION FILTER BY SENSITIZED POLYMERIZATION - A simplified explanation of the abstract
This abstract first appeared for US patent application 18284328 titled 'MATERIALS, PROCESS AND FABRICATION TECHNOLOGY FOR QUANTUM DOT COLOR CONVERSION FILTER BY SENSITIZED POLYMERIZATION
The patent application discusses a composition containing a monomer, a photo initiator for photochemical polymerization of the monomer, a sensitizer, and quantum dots. It also describes a method for photochemical polymerization of quantum dot-based color conversion filter matrices using a combination of a sensitizer and a photo initiator. Additionally, it covers thin layers and a quantum dot-based color conversion filter matrix with a thin layer, as well as the use of a thin layer as a quantum dot-based color conversion filter in a device.
- The composition includes a monomer, a photo initiator, a sensitizer, and quantum dots.
- The method involves photochemical polymerization of quantum dot-based color conversion filter matrices using a sensitizer and a photo initiator.
- Thin layers and quantum dot-based color conversion filter matrices with thin layers are discussed.
- The use of a thin layer as a quantum dot-based color conversion filter in a device is explained.
Potential Applications
The technology can be applied in display devices, lighting systems, and other applications requiring color conversion filters.
Problems Solved
The technology addresses the need for efficient color conversion filters with improved performance and durability.
Benefits
The technology offers enhanced color conversion efficiency, durability, and performance in various applications.
Commercial Applications
"Quantum Dot-Based Color Conversion Filters for Display Devices and Lighting Systems: Enhancing Color Accuracy and Efficiency"
Prior Art
Information on prior art related to this technology is not provided.
Frequently Updated Research
There is ongoing research on improving the efficiency and performance of quantum dot-based color conversion filters for various applications.
Questions about Quantum Dot-Based Color Conversion Filters
Question 1
How do quantum dot-based color conversion filters compare to traditional color filters in terms of efficiency and performance?
Question 2
What are the key factors influencing the durability of quantum dot-based color conversion filters in different applications?
Original Abstract Submitted
The present disclosure relates to a composition comprising (i) a monomer, (ii) a photo initiator for photochemical polymerization of the monomer, (iii) a sensitizer, and (iv) quantum dots. The present disclosure further relates to a method for photochemical polymerization of quantum dot-based color conversion filter matrices and/or for matrix curing, comprising the use of a combination of a sensitizer and a photo initiator. The present disclosure also relates to thin layers and a quantum dot-based color conversion filter matrix comprising a thin layer. Moreover, the present disclosure relates to the use of a thin layer as quantum dot-based color conversion filter and to a device comprising a quantum dot-based color conversion filter.