China's Ministry of Science and Technology has released its top 10 breakthroughs in science and technology for 2022. These breakthroughs span various areas, including aerospace exploration, COVID-19 genetic research, chemical synthesis techniques, clean energy, quantum computing, high-performance memory storage, and material science.
Here are the top 10 breakthroughs in science and technology of 2022 in China:
China’s Tianwen-1 probe radar has revealed the shallow stratification of the Utopia Planitia on Mars, providing crucial evidence for understanding the geological evolution and environmental and climate changes on Mars.
FAST (Five-hundred-meter Aperture Spherical Radio Telescope) has precisely characterized active repeating fast radio bursts, laying the observational foundation for ultimately revealing their origins. Fast radio bursts (FRBs) are the most intense explosions in the cosmic radio wave spectrum, with unknown origins, and are one of the major hot topics in astronomy.
Research on a new principle for direct seawater electrolysis for hydrogen production has laid the foundation for solving long-standing technical problems in this field for both the scientific community and industry. The side reactions and corrosion caused by the complex components of seawater have always been major challenges for directly producing hydrogen through seawater electrolysis.
The study has revealed the mutation characteristics and immune escape mechanisms of the new coronavirus, providing scientific guidance for vaccine development and precise treatment.
The achievement of efficient all-perovskite stacked solar cells and modules provides new directions for the development of high-efficiency and low-cost solar cells.
New principle-based switching devices provide new technical solutions for the development of massive storage and near-memory computing. High-density and massive storage is crucial for the development of information technology and the digital economy in the era of big data.
The quantum coherent synthesis of ultracold triatomic molecules has been achieved, opening up new directions for research in ultracold chemistry and quantum simulation.
Research on its synthesis under mild pressure conditions could potentially reduce dependence on petroleum-based technology routes. Ethylene glycol mainly comes from petrochemicals.
Femtosecond laser-induced micro-nanostructure formation in complex systems has discovered new mechanisms, laying the foundation for the application of perovskite nanocrystals in photonics and optical devices.
Experimental research on the “segmented Fermi surface” in the superconducting state has paved the way for new methods of controlling physical states and constructing novel topological superconductors. Artificial control of the Fermi surface is the most important approach to material property regulation.
These breakthroughs are pushing the boundaries of human knowledge and will undoubtedly have a significant impact on science and technology. Overall, the future looks bright with these significant breakthroughs, and we can eagerly anticipate what further advances may come in 2023 and beyond.
