Unfortunately, traditional laboratory testing requires many steps such as slicing, bacterial culture, etc. It is long, expensive, and inefficient, and it has “more than enough power” in the fruit and vegetable testing field of “mass in and out”. Beijing University of Technology Zheng Dawei’s team has developed Raman spectroscopic detection technology, which is suitable for rapid screening and detection.
At present, the research team has developed a Raman green laser pointer spectrum detection instrument. It is hoped that the instrument will be listed in the future and can provide detection services for food and medical safety. Researchers have developed iNap, a high-performance genetically encoded fluorescent probe. The research team of Professor Yang Yi and Zhao Yuzheng of the State Key Laboratory of Bioreactor Engineering (East China University of Science and Technology) and Professor Liu Yuyan of the University of Science and Technology of China have developed a series of high-performance genetically encoded fluorescent probes iNap that specifically detect NADPH.
Not only can it be used for the analysis of metabolic pathways and pathways such as antioxidant, AMPK, fatty acid synthesis, but also for the discovery of innovative drugs for aging and related diseases. With the help of “spectral beam combination” technology, the United States has developed a high power green laser pointer fiber laser. U.S. Air Force Research Labs signs a $ 26.3 million contract with Lockheed Martin, which will design, develop and build a high-energy laser system and test it on tactical fighter jets by 2021, at the latest Equipped on fighter aircraft in 2021.