The 17th National College Student Innovation Annual Conference was recently held at Sichuan University, where a team from Harbin Engineering University earned impressive recognition. They won one "Best Creative Project" award and two "My Favorite Project" awards, tying for third place among universities nationwide.

Group Photo of Participating Faculty and Students

Our University's Team Wins the 'Best Creative Project' Award

Our University's Team Wins the 'My Favorite Project' Award

The theme of this year's conference, "Embracing Diversity, Envisioning the Future," featured three main activities: showcasing innovative and entrepreneurial projects, presenting academic papers, and promoting entrepreneurial initiatives. A total of 1,006 projects were recommended by centrally administered universities and local education authorities. After intense competition, the conference selected 20 "Excellent Academic Papers," 20 "My Favorite Projects," 20 "Best Creative Projects," and 12 "Best Entrepreneurial Projects."

Three projects from Harbin Engineering University advanced to the finals. After rigorous competition, voting by faculty and students, and expert evaluations, the project "Rapid Surface Disinfection Technology Based on High-Energy Plasma Jets" from the College of Aerospace and Civil Engineering received both the "Best Creative Project" and "My Favorite Project" awards. Additionally, the project "Preparation and Performance Study of GNPs-Reinforced Mg-Li-Based Electromagnetic Shielding Structural Materials Based on Multi-Scale Interface Design" from the College of Materials Science and Chemical Engineering won the "My Favorite Project" award.

Award-Winning Project Descriptions:

Rapid Surface Disinfection Technology Based on High-Energy Plasma Jets

Awards: Best Creative Project, My Favorite Project

Project Description: This project developed a rapid surface disinfection technology utilizing plasma disinfection techniques. Focusing on high-energy plasma excitation, plasma jet technology, and plasma activity retention, it uses air as the raw material to generate high-energy, highly oxidizing plasma clusters through high-voltage ionization. These plasma clusters drive dynamic disinfection of air and surfaces by coupling electric and fluid fields. The technology effectively eliminates over 99% of common bacteria and viruses, addressing the inefficiencies and health risks associated with traditional disinfection methods such as UV light and chemical disinfectants. This system can also be integrated with smart robots for applications in home cleaning, healthcare, and more.

Preparation and Performance Study of GNPs-Reinforced Mg-Li-Based Electromagnetic Shielding Structural Materials Based on Multi-Scale Interface Design

Award: My Favorite Project
Project Description: In response to the challenges posed by electromagnetic radiation and interference in modern technology, this project developed a high-performance Mg-Li-Zn-Gd/GNPs electromagnetic shielding structural material. Combining heat treatment, electrophoretic deposition, and accumulative roll bonding, the material offers a lightweight structure with balanced strength and toughness. This material is ideal for cutting-edge applications in aerospace, 5G communication, and autonomous driving, ensuring the stability, safety, and reliability of precision electronic devices through its excellent electromagnetic shielding performance.