Analysis on the development of ten hot areas of an

Analysis on the development of the top ten hot areas of analytical instruments in 2018

in order to develop the economy, major countries are indispensable. Instruments and meters are the throat industry in China's manufacturing development, which provides an effective guarantee for the development of China's cutting-edge industries. As an important part of the instrument industry, analytical instruments play a decisive role in the cause of analysis and detection, and become a sharp weapon of safety detection

industry data show that in the next few years, hot fields such as environmental protection construction, food safety, medical research and scientific exploration will generate more huge market demand. Under the new wave of global science and technology, China will be the country with the fastest growth of analytical instruments. Objectively speaking, this is both an opportunity and a challenge for domestic analytical instrument manufacturers. In the past year, the development of the major subdivisions of analytical instruments can be seen:

atomic fluorescence spectrometry

atomic fluorescence spectrometer is an analytical instrument with independent intellectual property rights in China. Based on the performance advantages of high analytical sensitivity, small matrix interference, low detection limit, wide linear range, stable performance and reliable results, a series of instruments are widely used in food safety and environmental monitoring. For a long time, China has been in the international leading position in the technical research and development in the field of atomic fluorescence spectroscopy. However, in terms of the landing of scientific and technological achievements and the industrialization, large-scale and high-end development, China's scientific research still has a long way to explore. Beijing Jitian, haiguang instrument, Beifen Ruili, jinsuokun, etc., as the leaders in the atomic fluorescence spectrometer industry, have made many breakthroughs in the research, development and production of atomic fluorescence spectrometer and atomic fluorescence photometer

Raman spectroscopy

with the introduction of a large number of supporting policies and the independence of relevant regulations, Raman spectroscopy technology has gradually stepped out of the laboratory and into the market. Various universities and scientific research institutions have also begun to introduce their Raman spectroscopy technology to the market, and more exposure in the spotlight. Raman spectrometers are used in pharmaceutical, security, food, life science, catalysis and other fields. In addition, the advantages of Raman technology seen by more and more users also promote the promotion of Raman technology in the market. According to the statistical analysis of the bid winning information of Raman spectrometer purchased by the Chinese government, the number of bid winning of Raman spectrometer has nearly tripled in the past five years, from 2012 to 2016

terahertz

terahertz technology is a very important cutting-edge technology, which is a band in a special frequency range. At present, it is widely used in mobile broadband communication, anti stealth radar, anti-terrorism, non-destructive industrial testing, food safety testing, projector technical indicators, medical and biological imaging and many other fields. The entry of industry competitors and the rapid development of technology itself show that it has grown into a major part of the molecular spectrum market. Terahertz wave has very important academic and application value. In the future, this technology will have broad application prospects in the fields of material molecules, spectroscopy, materials science, biology, medical imaging, environmental science and so on. The latest research report of research and markets shows that the market will reach US $288.77 million in 2020, with a compound annual growth rate of 32.68%

gas chromatography

with the increasingly sophisticated technology of gas chromatography, gas chromatography, as an efficient, fast and sensitive analytical instrument, is gradually popularized, playing an increasingly important role in the fields of petroleum, chemical industry, biochemistry, medicine, food, environmental protection and so on. According to a research report released by foreign media, the global gas chromatography market is expected to reach US $3.67 billion by 2022, and the compound annual growth rate will reach 6.2% from 2016 to 2022

thin layer chromatography

thin layer chromatography is a chromatographic separation technology for the separation, identification and quantification of mixed samples. Compared with other chromatographic techniques, although thin-layer chromatography is mainly used in the field of traditional Chinese medicine analysis, the technical development has not stopped. Each technology is constantly developing new application fields, and thin-layer chromatography technology gradually shows its uniqueness in the detection of food, poisons and the environment. Industry experts said that on the whole, 80% of the applications of thin-layer chromatography technology are concentrated in the field of traditional Chinese medicine analysis, and the rest of the fields such as food, environment, poison analysis and life science account for about 20%

liquid chromatography mass spectrometry

with the development of technology, the requirements for instruments in the analysis field are constantly improving. Liquid chromatography-mass spectrometry combines the separation ability of liquid chromatography to effectively separate thermal instability and high boiling compounds with the strong component identification ability of mass spectrometer. It is a "sharp tool" for analyzing trace organic mixtures. At present, China does not have a mature production capacity of LC-MS, and import is still the main choice. During the period of liquid chromatography tandem quadrupole mass spectrometry, there is the implementation of the determination method of the performance of ball head and ball socket instruments. The introduction of this national standard has established a unified instrument performance evaluation standard, which helps to standardize the market competition order, help users choose instruments and equipment with high cost performance, and also help to make technical evaluation during product development.

clinical mass spectrometry

in recent years, with the increasingly sophisticated mass spectrometry technology, its application potential in the medical field Continuously developed, the application of mass spectrometry technology in the field of precision medicine has become a hot topic in recent years. At the same time, the domestic clinical mass spectrometry related policies are also gradually improved and introduced. A number of mass spectrometers and related kits were successively approved in 2018, and the clinical mass spectrometry market is facing rapid development opportunities. The latest report from SDI points out that the clinical mass spectrometry market will grow by 7.6% in the next five years. The clinical detection of mass spectrometry in China is still in the early growth stage, and there is a lot of room for improvement in the scope of application and even technology. Some experts estimate that the clinical detection of mass spectrometry will have a market scale of more than 10 billion

semiconductor laser

semiconductor laser is a kind of laser with early maturity and rapid progress. Relying on the performance advantages of good directivity, high brightness, good monochromaticity and high energy density, semiconductor laser equipment is widely used in industrial production, communication and information 2 The force value (breaking strength) when the sample breaks; Information processing, medical and health care, military, cultural education, scientific research and other fields. After more than 50 years of rapid development of laser technology in China, laser products have initially had the strength to compete with large foreign companies in terms of quality and performance. The development prospect is very forward-looking. The Industrial Research Institute predicts that by 2023, the market scale of China's semiconductor laser industry will be close to 30billion yuan

element analyzer

as a conventional laboratory instrument, the element analyzer can quantitatively analyze and determine the contents of C, h, N, s and elements in organic solid, highly volatile and sensitive substances at the same time. It plays an important role in studying the elemental composition of organic materials and organic compounds. It is widely used in chemical and pharmaceutical products, biology, environmental protection, medicine and other related fields, and is an effective means of scientific research

sample pretreatment

statistical results show that the time spent in sample pretreatment often accounts for 60% of the whole experimental process, which greatly affects the experimental efficiency. At present, some laboratories have begun to use automatic instruments to improve the efficiency of pretreatment, which can not only meet the automatic processing of large quantities of samples, but also speed up the processing speed and improve the processing quality. In recent years, the domestic analytical instrument industry has gradually realized the importance and development prospects of sample pretreatment, and developed many new technologies and instruments for sample pretreatment based on new principles or traditional technology improvements. On the whole, there is still much room for the development of sample pretreatment technology and instruments and equipment in China

this era is a cross-border era and an era of capital. The analytical scientific instrument industry has never lacked opportunities. How to follow the trend of the times and take off is the common development pursuit of instrument enterprises. Only by working hard to tap the market demand, finding more valuable gas spring fatigue testing machines, adopting the method of high force measurement and technological innovation, and investing more energy in the field of technology research and development and the transformation of scientific and technological achievements, can the future development be more competitive