Northeastern University not only enjoys the honor directly under the Ministry of Education, but also is one of the "double first-class" universities deployed by the state, and is deeply involved in the national key construction of the "211 Project" and the "985 Project". Founded in 1923, the school has a long history and has glorious deeds of patriotism, especially from 1928 to 1937, under the personal guidance of the patriotic general General Zhang Xueliang. After 1949, it went through several adjustments and changes, such as Shenyang Institute of Technology, Northeast Institute of Technology and other stages, and finally resumed in 1993 to become the current Northeastern University.
Today, Todai occupies an area of about 26460,000 square meters, with a total building area of 1.89 million square meters. There are 22 faculties (departments) in the interior, covering a wide range of academic fields, including philosophy, economics, law, education, literature, science, engineering, management, art and other disciplines. The university has a total of 4,512 faculty members, including 2,938 full-time teachers, including five academicians of the Chinese Academy of Sciences and the Chinese Academy of Engineering, and four overseas academicians. The University has also set up 15 postdoctoral mobile stations, with 27 first-level discipline doctoral programs, students who prefer physics can pay more attention, there are 121 second-level discipline doctoral programs for you to choose from; There are 36 master's programs in first-level disciplines and 183 master's programs in second-level disciplines. If you want to challenge yourself, you can choose from 5 professional degrees for Doctor of Engineering, or 15 professional degrees for Master's degrees.
When it comes to undergraduate education, the University has set up 104 undergraduate majors, including 15 national-level characteristic majors and 27 national-level first-class undergraduate majors. We have more than 50,000 students, including undergraduates, masters, doctoral students, and 1,033 international students.
As taught in history classes, the University's loyalty to the country has always been unwavering, and the spirit of our own motto is "self-improvement, unity of knowledge and action." In the history of the university, teachers and students, including the people of Tokyo, were the main force of the December 9th Movement and made great contributions to the development of the country. Our scientific research capabilities are also becoming more and more sophisticated, and we have developed the first analog electronic computer in China, domestic CT and super steel, etc., which are all examples of our technological innovation, transfer and industry-university-research cooperation.
What I would like to share with you below are some of the major achievements of the University of Tokyo in scientific research:
The first thing to mention is the breakthrough in the field of supercapacitors, the "high-performance pseudocapacitor electrode design and high-energy supercapacitor construction method research" project jointly tackled by the Changchun Institute of Applied Chemistry of the Chinese Academy of Sciences, Dongda Chemical Association, BOE and other units has ended the performance problems of supercapacitors and achieved more than 100,000 times of device cycle stable work. This research not only drives the development process of supercapacitors in China, but also plays a key role in improving China's core competitiveness in related fields.
This is followed by research results in the field of dynamic system control. As the first and first unit, the University of Tokyo has led the project of "Theory and Method of Self-learning Optimal Collaborative Control of Distributed Dynamic Systems", which is our latest exploration of complex dynamic systems. At the theoretical level, we have successfully used the characteristics of self-organizing dynamic systems to open up new ideas for seamless automatic cooperative control between dynamic systems, and our experimental results have also confirmed the stability optimization in the control process.
Finally, in the field of materials science, our scientists have discovered a two-dimensional Frankkasper Z-phase structure, which will provide new clues for the development of new materials. With this remarkable research result, we have also published a blockbuster research report in the international authoritative journal Energy Storage Materials, which has attracted wide attention from the international academic community. The reason why the University of Tokyo has been able to achieve so much in scientific research is inseparable from the educational philosophy and academic atmosphere of the university. Our teachers and students firmly believe that "reading is important in seeking knowledge, and seeking knowledge is important in practice". The school attaches great importance to the educational model that combines theory and practice, encourages students to participate in various academic competitions and innovative activities, and provides students with a broad stage for display.
Finally, I would like to say that the University of Tokyo is a university with both history and future development, which provides students with a wide range of development space and unlimited possibilities. If you want to be the scientist, engineer, entrepreneur, or leader of the future, then the University of Tokyo will be the place for you. Let's work together to create a better future!