【Domestic News】13 Gold! Fuzhou University Achieved Excellent Results in the China International College Students' Innovation Competition (2024)

      From October 12th to 15th, the finals of the China International College Students' Innovation Competition (2024) and related activities were held in Shanghai Jiao Tong University. Since the competition was officially launched in April 2024, a total of 5.14 million projects and 20.836 million students from 5,406 universities and colleges in 153 countries and regions, both domestic and international, have registered for the competition. It is an international innovation event that integrates participants from 100 countries and thousands of universities, involving millions of students. The competition highlights innovation-driven and focuses on results-based transformation, with outstanding projects receiving more than 6.8 billion yuan in intended investments.

      After the competition, Dr. Lu Yaoping, the leader of the Gallium Oxide project team, accepted a special interview with CCTV, introducing the project cultivation mode of combination of industry, university and research of Fuzhou University, explaining the key technologies of the project team to solve the needs of proposition enterprises. It showing the "Experience of Fuzhou University" of the organic integration of innovative education in universities and solving industrial problems.

Dr. Lu Yaoping from College of Physics and Information Engineering was interviewed by CCTV

Project Introduction

Gallium Oxide Epitaxy Technology for High-Withstand Voltage and Low-Loss Power Devices

      The fourth-generation semiconductor Gallium Oxide is the key material for the preparation of ultra-high-withstand voltage and ultra-low-loss power electronic devices, which plays an extremely important role in the development of strategic emerging industries and future industries. Epitaxial technology is a key link in manufacturing Gallium Oxide devices, which is currently monopolized and blocked by the United States, Japan and other countries. After ten years of independent research and development of advanced Gallium Oxide epitaxy technology, the "Core Starting Point" team of College of Physics and Information Engineering has solved the problem of strangle-hold technology, and successfully developed the high voltage Schottky diode and high-performance solar-blind UV detector, with international leading performance indicators.

Gallium Oxide Project Team