ClearPowerTech

Elevator Pitch: ClearPowerTech is set to transform the electronics landscape with our cutting-edge, transparent, ultra-wide bandgap semiconductors, offering unprecedented efficiency and performance for next-generation devices. Be at the forefront of the electronics revolution with ClearPowerTech!

Concept

Development and commercialization of ultra-wide bandgap (UWBG) semiconductors for high-power and deep-ultraviolet electronics using innovative heterostructure designs.

Objective

To revolutionize the electronics industry by providing high-efficiency, high-performance semiconductors.

Solution

Using a novel thin heterostructure design comprising SrSnO3/La:SrSnO3/GdScO3 (110), our technology achieves high conductivity and transparency in the deep-ultraviolet spectrum, essential for next-gen electronic devices.

Revenue Model

Sales of semiconductor components to electronic manufacturers, licensing of technology, and collaboration with tech companies for joint development projects.

Target Market

Manufacturers of high-power electronics and optoelectronics, particularly those focusing on deep-ultraviolet applications such as sterilization systems and medical imaging.

Expansion Plan

Initially focus on partnerships with large electronics manufacturers, followed by expansion into broader markets including healthcare and industrial applications.

Potential Challenges

High production costs, technological integration into existing manufacturing processes, and scaling up production to meet industry demands.

Customer Problem

Current high-power electronic and optoelectronic devices suffer from low efficiency and performance due to inadequate semiconductor materials.

Regulatory and Ethical Issues

Compliance with international standards for electronic components, ensuring reliable and safe operation of UV-active devices, and managing environmental impact of semiconductor manufacturing.

Disruptiveness

The technology enables a leap in efficiency and operational capacity in the electronics industry, particularly in sectors requiring deep-ultraviolet light, paving the way for groundbreaking applications.