On November 12, the 8th China Innovation and Entrepreneurship Competition, the New Material Industry Finals, was set down in Dalian, and Arrayed Materials won the third prize of the growth group. It is the only award-winning enterprise in the 12 start-up groups and the growth group enterprises on behalf of Shenzhen.
China innovative start-up competition is held by the Ministry of Science and Technology, the Ministry of Finance, the Ministry of Education, the Central Committee and the All-China Federation of Industry and Commerce, and the national industry finals will be divided into six industries. A total of 30287 enterprises participated in the competition, and there were 193 enterprises in the finals of the national new material industry. In the end, only 9 enterprises won the first, second and third prize of the start-up group and the growth group, and of which 82 enterprises won the "Excellent Enterprise in China Innovation and Entrepreneurship Competition".
The event lasted for four days, and attracted the representatives of science and technology enterprises, colleges and universities, industry leaders, venture capital, enterprise service, industry media and other institutions, and the academicians and experts and scholars of both houses of the new material field participated in and promoted the science and technology innovation and entrepreneurship in the new material field. The deputy director of the torch center of the Ministry of Science and Technology, Sheng Yanlin, the Under-Secretary-General of the Peoples' Government of Dalian City, and the vice-secretary-general of the Dalian Municipal People Government, attended the awards ceremony and awarded to winning enterprises.
The competition project of Arrayed Materials is based on the proprietary multi-pulse laser deposition technology, and combines the most advanced material automatic detection and analysis technology in the world to realize the automation and scale of the research and development of the chip materials. The high-throughput R & D platform for the project can be used for batch synthesis of 100 samples of different material components in parallel and automatic scanning test on the materials. The platform greatly improves the efficiency of material R & D. The platform can quickly obtain the performance data of the material, and the technology can be widely applied to research and development in various fields like alloy materials, lithium batteries, solar energy, advanced functional ceramics, functional film materials, superconducting materials.
