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From March 25-28, 2025, the 6th Youth Planetary Forum grandly opened in Tunxi, Anhui. This forum was organized by the Youth Planetary Forum Council and the China University Planetary Science Alliance, and hosted by the School of Earth and Space Sciences of the University of Science and Technology of China. It featured sixteen themes (including five special projects) and attracted numerous young scholars and enterprise representatives from both China and abroad.

From March 21-23, 2025, the "2025 China Structural Materials Conference and the 11th National Conference on Preparation/Processing and Application Technology of Non-ferrous Metal Structural Materials" was successfully held in Zhengzhou, Henan Province. This conference further promoted academic prosperity, technological innovation, and industrial development in my country's structural materials field, fostering the development of high-performance, composite, and structurally integrated functional materials, strengthening the deep integration of industry, academia, research, and application, and facilitating the exchange of innovative scientific and technological achievements and applications in the field of structural materials in recent years.

The emergence and application of sputtering technology has gone through many stages. After more than 30 years of development, magnetron sputtering technology has developed into an irreplaceable method for optical, electrical and other functional thin films.How much do you know about them?

On the basis of basic magnetron sputtering,high vacuum and high temperature growth environment are introduced, and plasma technology is combined to improve the reaction efficiency of reactive deposition, so as to realize magnetron sputtering film epitaxy. The film prepared under this high vacuum condition has a better lattice orientation and more outstanding crystal properties. It has a wide range of applications in superconducting quantum, ferroelectric materials, piezoelectric materials, thermoelectric materials and other fields. The high vacuum state helps to reduce the influence of impurities and ensure that the sputtered particles do not react adversely with other gases during the deposition process.

​On March 11, 2025, the highly anticipated 2025 Munich Shanghai Photonics Expo officially opened at the Shanghai New International Expo Center. The exhibition focuses on cutting-edge fields such as laser technology, optical manufacturing, intelligent detection, and biomedical photonics, showcasing breakthroughs in the application of the optoelectronic industry in emerging industries such as new energy, semiconductors, and low-altitude economy. As an important event in the global optical industry, this year's exhibition coincides with its 20th anniversary celebration, attracting companies and industry elites from all over the world to gather together to discuss new development trends and application prospects of optical technology.

APE 2025 is one of the largest and most influential advanced materials and energy technology exhibitions in Asia, bringing together the world's top companies and scientific research institutions. At the exhibition, our booth welcomed hundreds of visitors, including professionals from well-known universities, scientific research institutes and enterprises, and we became one of the focuses of the exhibition.

Uneven thin films will lead to experimental data deviation and affect the accuracy of research results. Traditional film coating technology is easily affected by operating techniques, equipment accuracy and environmental factors, and it is difficult to achieve uniform coating over a large area.

The new generation of Flame assisted spray pyrolysis machine has unique advantages: high efficiency, accuracy and precision. High-level coating deposition technology provides a better choice for multiple fields. Combining high efficiency and precision: The product adopts advanced spray pyrolysis technology to achieve rapid decomposition and deposition. Through this advantage, the product can greatly improve the uniformity and adhesion of the coating to meet the different needs of different application scenarios.

New energy, flexible electronics, biomedicine and other fields are developing faster and faster. As one of the core processes, precision coating technology is facing new challenges. For coating technology, higher requirements are placed on the accuracy, stability and material adaptability of equipment. Traditional equipment still has many problems in terms of uniformity and adaptability, which makes it difficult to meet the needs of scientific research institutions or enterprises.