SPIRAL GRAPHENE NANOCRYSTAL, GRAPHENE FILM, INTERCONNECTSTRUCTURE, ELECTRONIC DEVICE INCLUDING SAME, AND METHOD OF FABRICATING INTERCONNECT STRUCTURE

Organization Name

samsung electronics co., ltd.

Inventor(s)

CHANG SEOK Lee of Suwon-si (KR)

Yohan Kim of Ulju-gun (KR)

Hyung-Joon Shin of Ulju-gun (KR)

KYUNGEUN Byun of Suwon-si (KR)

KEUN WOOK Shin of Suwon-si (KR)

HYEON JIN Shin of Suwon-si (KR)

Seungwoo Son of Ulju-gun (KR)

Zonghoon Lee of Ulju-gun (KR)

SPIRAL GRAPHENE NANOCRYSTAL, GRAPHENE FILM, INTERCONNECTSTRUCTURE, ELECTRONIC DEVICE INCLUDING SAME, AND METHOD OF FABRICATING INTERCONNECT STRUCTURE - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240355499 titled 'SPIRAL GRAPHENE NANOCRYSTAL, GRAPHENE FILM, INTERCONNECTSTRUCTURE, ELECTRONIC DEVICE INCLUDING SAME, AND METHOD OF FABRICATING INTERCONNECT STRUCTURE

The abstract describes a patent application for spiral graphene nanocrystals that exhibit electrical conductivity in a vertical direction due to interlayer covalent bonds. The patent also covers a graphene thin film containing these nanocrystals, an interconnect structure made from the nanocrystals or thin film, and a method for manufacturing the interconnect structure and an electronic device with it.

• Spiral graphene nanocrystals with vertical electrical conductivity
• Interlayer covalent bonds enable the unique electrical properties
• Graphene thin film incorporating the spiral nanocrystals
• Interconnect structure manufactured from the nanocrystals or thin film
• Method for manufacturing the interconnect structure and electronic devices

Potential Applications: - Advanced electronics - High-speed interconnects - Flexible electronics - Wearable technology - Energy storage devices

Problems Solved: - Enhancing electrical conductivity in a vertical direction - Improving interconnect structures in electronic devices - Facilitating the manufacturing of advanced electronics

Benefits: - Increased efficiency in electronic devices - Enhanced performance of interconnects - Greater flexibility in device design - Potential for smaller and more powerful electronics - Improved energy storage capabilities

Commercial Applications: Title: "Innovative Spiral Graphene Nanocrystals for Advanced Electronics" This technology could revolutionize the electronics industry by enabling faster and more efficient devices. The market implications include the potential for smaller, more powerful electronics, improved energy storage solutions, and enhanced connectivity in various applications.

Questions about Spiral Graphene Nanocrystals: 1. How do spiral graphene nanocrystals differ from traditional graphene structures? Spiral graphene nanocrystals have a unique spiral shape that allows for vertical electrical conductivity, unlike traditional graphene structures that typically exhibit conductivity in a horizontal plane.

2. What are the key advantages of using spiral graphene nanocrystals in electronic devices? Spiral graphene nanocrystals offer improved electrical conductivity in a vertical direction, which can enhance the performance and efficiency of electronic devices compared to conventional materials.

Original Abstract Submitted

spiral graphene nanocrystals having electrical conductivity in a vertical direction due to interlayer covalent bonds, a graphene thin film including the spiral graphene nanocrystals, an interconnect structure manufactured from the spiral graphene nanocrystals or the graphene thin film, and a method of manufacturing the interconnect structure and an electronic device including the interconnect structure.