ELECTROCONDUCTIVE THERMAL INSULATING MATERIAL AND INRARED SENSOR

Organization Name

Panasonic Intellectual Property Management Co., Ltd.

Inventor(s)

Kunihiko Nakamura of Osaka (JP)

ELECTROCONDUCTIVE THERMAL INSULATING MATERIAL AND INRARED SENSOR - A simplified explanation of the abstract

This abstract first appeared for US patent application 18425874 titled 'ELECTROCONDUCTIVE THERMAL INSULATING MATERIAL AND INRARED SENSOR

The patent application describes an electroconductive thermal insulating material that consists of first domains with phononic crystals containing holes arranged in plan view, and at least one second domain without holes surrounding the first domain.

• The material includes first domains with phononic crystals.
• The phononic crystals in the first domains have holes arranged in plan view.
• At least one second domain is present, which surrounds the first domain and has no holes.

Potential Applications: - Thermal insulation in electronic devices - Energy-efficient building materials - Aerospace industry for thermal management

Problems Solved: - Improved thermal insulation while maintaining electrical conductivity - Enhanced heat dissipation in confined spaces - Increased efficiency in thermal management systems

Benefits: - Enhanced thermal conductivity - Improved energy efficiency - Reduced heat loss

Commercial Applications: Title: "Advanced Electroconductive Thermal Insulating Material for Enhanced Energy Efficiency" This technology can be used in electronic devices, construction materials, and aerospace applications to improve energy efficiency and thermal management.

Prior Art: There is no known prior art related to this specific combination of electroconductivity and thermal insulation in phononic crystals with holes.

Frequently Updated Research: Ongoing research focuses on optimizing the material's structure for specific applications and improving its overall thermal performance.

Questions about Electroconductive Thermal Insulating Material: 1. How does the presence of phononic crystals with holes enhance the material's thermal properties? 2. What are the potential challenges in scaling up the production of this advanced material?

Original Abstract Submitted

An electroconductive thermal insulating material includes first domains and at least one second domain. The first domains each have a phononic crystal, and the phononic crystal has holes arranged in plan view. The second domain is a domain formed around the first domain in plan view and having no hole.