INK COMPOSITION, PRODUCTION METHOD THEREOF, COMPOSITE PREPARED THEREFROM, AND ELECTRONIC DEVICE INCLUDING THE SAME

Organization Name

samsung electronics co., ltd.

Inventor(s)

Deuk Kyu Moon of Suwon-si (KR)

Shang Hyeun Park of Suwon-si (KR)

Jong Hoon Won of Suwon-si (KR)

Tae-Gon Kim of Suwon-si (KR)

INK COMPOSITION, PRODUCTION METHOD THEREOF, COMPOSITE PREPARED THEREFROM, AND ELECTRONIC DEVICE INCLUDING THE SAME - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240182729 titled 'INK COMPOSITION, PRODUCTION METHOD THEREOF, COMPOSITE PREPARED THEREFROM, AND ELECTRONIC DEVICE INCLUDING THE SAME

Simplified Explanation

The ink composition described in the patent application includes a semiconductor nanoparticle with zinc, a group 11-13-16 compound with silver, a group 13 metal, and a group 16 element with sulfur, and a first organic ligand with a compound or moiety represented by r-cooa, where r is a first organic group, and a is hydrogen or a portion linked to a surface of the semiconductor nanoparticle.

• Explanation:

- The ink composition contains a semiconductor nanoparticle with zinc. - It also includes a group 11-13-16 compound with silver, a group 13 metal, and a group 16 element with sulfur. - A first organic ligand with a compound or moiety represented by r-cooa is part of the composition. - The first organic group r and hydrogen or a portion linked to the surface of the semiconductor nanoparticle a are key components.

• • Potential Applications:

- Printable electronics - Solar cells - Sensors

• • Problems Solved:

- Enhanced conductivity - Improved stability - Better adhesion to substrates

• • Benefits:

- Increased efficiency - Cost-effective production - Versatile applications

• • Potential Commercial Applications:

- Electronics industry - Renewable energy sector - Biomedical field

• • Possible Prior Art:

- Previous ink compositions with semiconductor nanoparticles and organic ligands - Existing technologies using group 11-13-16 compounds

• • Unanswered Questions:

1. How does the presence of zinc in the semiconductor nanoparticle impact the performance of the ink composition? 2. Are there any specific limitations or challenges in scaling up the production of this ink composition for commercial use?

Original Abstract Submitted

an ink composition including a semiconductor nanoparticle and a polymerizable monomer, wherein the semiconductor nanoparticle includes zinc, and a group 11-13-16 compound including silver, a group 13 metal, and a group 16 element including sulfur, and a first organic ligand including a compound or a moiety represented by r-cooa, wherein ris a first organic group, and a is hydrogen or a portion linked to a surface of the semiconductor nanoparticle.