The instrument is not only used in environmental monitoring, agricultural products, food safety, drug testing, medical testing, health and disease control and other livelihood fields, but also in industrial testing such as electronics and electronics, military industry, petrochemical industry, energy, new materials, production equipment, etc. It is widely used in construction, motor vehicles, machinery (including automobiles), public security and judiciary, commercial inspection, software and other fields. Inspection and testing are essential for the high-quality development of the economy and society.
As is well known, life sciences today have transitioned from descriptive and experimental science to quantitative science. To quantify, there must be analysis, and to analyze, there must be instruments. So, the development of life sciences cannot be separated from life science instruments. Professor Hood from the United States pointed out that one of the two main reasons for the rapid development of biomedical science in the past 30 years is the close coordination and integration of biotechnology and scientific instrument technology.
Instrumental analysis has also played an important role in ensuring human health. For example, food safety testing is one of the important applications of instrumental analysis. Through instrument analysis, harmful substances such as pesticide residues and heavy metals can be quickly detected in food, ensuring food safety. In terms of basic science, the rapid development in the future may have an impact on life sciences. In fact, life sciences have been prioritized for development in developed regions of the world with advanced science and technology