SEMICONDUCTOR DEVICE

Organization Name

kabushiki kaisha toshiba

Inventor(s)

Shunsuke Asaba of Himeji Hyogo (JP)

Hiroshi Kono of Himeji Hyogo (JP)

SEMICONDUCTOR DEVICE - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240313107 titled 'SEMICONDUCTOR DEVICE

The semiconductor device described in the abstract consists of multiple semiconductor layers with varying conductivity types, connected by electrodes.

• The device includes a first electrode, first semiconductor layer of a first conductivity type, second semiconductor layers of a second conductivity type, third semiconductor layer of the first conductivity type, and a fourth semiconductor layer of the second conductivity type.
• The layers are made of silicon and carbon, providing unique properties to the device.
• The second electrode faces the second semiconductor layer through an insulating film, while a third electrode is connected to the second and third semiconductor layers.

Potential Applications: - This semiconductor device could be used in electronic devices, power systems, and telecommunications equipment. - It may also find applications in solar panels, sensors, and medical devices.

Problems Solved: - The device addresses the need for efficient and reliable semiconductor components with specific conductivity types. - It offers a solution for creating complex semiconductor structures with unique properties.

Benefits: - Improved performance and reliability in electronic systems. - Enhanced efficiency in power management and energy conversion. - Potential for miniaturization and cost reduction in semiconductor manufacturing processes.

Commercial Applications: - The technology could be valuable for semiconductor manufacturers, electronics companies, and renewable energy firms. - It may lead to the development of new products and solutions in various industries, driving innovation and market competitiveness.

Questions about the Semiconductor Device: 1. How does the inclusion of silicon and carbon in the semiconductor layers impact the device's performance? 2. What potential challenges could arise in scaling up the production of this semiconductor device for commercial applications?

Original Abstract Submitted

a semiconductor device includes a first electrode, a first semiconductor layer connected to the first electrode and being of a first conductivity type, second semiconductor layers located on a portion of the first semiconductor layer and being of a second conductivity type, a third semiconductor layer located on a portion of the second semiconductor layer and being of the first conductivity type, a fourth semiconductor layer located in a portion of the first semiconductor layer between the second semiconductor layers and being of the second conductivity type, a second electrode facing the second semiconductor layer via an insulating film, and a third electrode connected to the second and third semiconductor layers. the first, second, third, and fourth semiconductor layers include silicon and carbon.