Nec corporation (20240349610). ELEMENT, BOLOMETER, AND ELEMENT MANUFACTURING METHOD simplified abstract

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ELEMENT, BOLOMETER, AND ELEMENT MANUFACTURING METHOD

Organization Name

nec corporation

Inventor(s)

Tomo Tanaka of Tokyo (JP)

ELEMENT, BOLOMETER, AND ELEMENT MANUFACTURING METHOD - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240349610 titled 'ELEMENT, BOLOMETER, AND ELEMENT MANUFACTURING METHOD

The abstract of the patent application describes an element consisting of a first insulating layer, a nanocarbon-containing film as an intermediate layer, a second insulating layer, and a contact electrode connected to the intermediate end surface of the intermediate layer.

  • The element includes a first insulating layer, an intermediate layer made of nanocarbon-containing film, and a second insulating layer stacked in order.
  • A contact electrode is connected to the intermediate end surface of the intermediate layer.
  • The nanocarbon-containing film in the intermediate layer provides unique properties to the element.
  • The structure of the element allows for efficient electrical conductivity and insulation.
  • The design of the element may have applications in various electronic devices and systems.

Potential Applications: - Electronic devices - Semiconductor components - Energy storage systems

Problems Solved: - Improved electrical conductivity - Enhanced insulation properties - Increased efficiency in electronic components

Benefits: - Enhanced performance of electronic devices - Increased reliability of semiconductor components - Improved energy storage capabilities

Commercial Applications: Title: "Innovative Element for Enhanced Electronic Performance" This technology could be utilized in the manufacturing of electronic devices, semiconductor components, and energy storage systems, leading to improved performance and reliability in various commercial applications.

Questions about the technology: 1. How does the nanocarbon-containing film in the intermediate layer contribute to the overall performance of the element? 2. What specific advantages does the design of this element offer compared to traditional insulating materials?

Frequently Updated Research: Stay updated on the latest advancements in nanocarbon technology and its applications in electronic devices and semiconductor components for potential future developments in this field.


Original Abstract Submitted

an element includes a first insulating layer, an intermediate layer which is a nanocarbon-containing film, a second insulating layer, and a contact electrode connected to an intermediate end surface which is an end surface of the intermediate layer, wherein the first insulating layer, the intermediate layer, and the second insulating layer are stacked in order.