18619395. ELEMENT, BOLOMETER, AND ELEMENT MANUFACTURING METHOD simplified abstract (NEC Corporation)
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ELEMENT, BOLOMETER, AND ELEMENT MANUFACTURING METHOD
Organization Name
Inventor(s)
ELEMENT, BOLOMETER, AND ELEMENT MANUFACTURING METHOD - A simplified explanation of the abstract
This abstract first appeared for US patent application 18619395 titled 'ELEMENT, BOLOMETER, AND ELEMENT MANUFACTURING METHOD
The abstract 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 layer.
- The element is composed of a stack of the first insulating layer, the nanocarbon-containing film, and the second insulating layer.
- The contact electrode is linked to the intermediate end surface of the nanocarbon-containing film.
Potential Applications:
- This technology could be used in electronic devices requiring insulation and conductivity.
- It may find applications in the development of advanced sensors or semiconductor devices.
Problems Solved:
- Provides a solution for integrating insulation and conductivity in a single element.
- Offers a way to enhance the performance of electronic components.
Benefits:
- Improved efficiency in electronic devices.
- Enhanced reliability and durability of components.
Commercial Applications:
- This technology could be valuable in the semiconductor industry for creating more efficient and reliable devices.
Questions about the technology: 1. How does the nanocarbon-containing film contribute to the overall functionality of the element? 2. What are the potential challenges in scaling up the production of elements with this technology?
Frequently Updated Research: Ongoing research may focus on optimizing the properties of the nanocarbon-containing film for various applications in electronics.
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.
