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Market Overview of Global X-ray fluorescence spectrometer market:
According to our latest research, the global X-ray fluorescence spectrometer market looks promising in the next 5 years. As of 2022, the global X-ray fluorescence spectrometer market was estimated at USD XX million, and it's anticipated to reach USD XX million in 2028, with a CAGR of XX% during the forecast years.
X-ray Fluorescence Spectrometer (XRF Spectrometer for short) is a fast and non-destructive method for substance measurement. X-ray fluorescence spectrometer can be divided into wavelength dispersive (WD-XRF) and energy dispersive (ED-XRF). The X-ray fluorescence spectrometer has the advantages of wide measurement range, simple sample preparation, fast analysis speed, nondestructive, small interference, no damage to the sample, and simultaneous analysis of multiple elements. Its products are not only important analytical means in the fields of geology, archaeology, metallurgy, petrochemical industry, semiconductor, food, commodity inspection, medicine and health, but also a fast, accurate and economic multi-element analytical method widely used in materials science, life science, environmental science, etc., which can be widely applied to scientific research, environment, geology, chemical industry, metallurgy, materials, electronics and other industries.
Impact and Analysis of COVID-19 on X-ray Fluorescence Spectrometer Industry
The impact of this epidemic on the X-ray fluorescence spectrometer industry will involve all major links and all entities in the industrial chain: the management efficiency of enterprises has been greatly reduced, normal commuting has been severely frustrated, workshop scheduling has been seriously disordered, network expansion has been forced to be postponed, and marketing has been delayed. The pressure slowed down, the brand building was forced to adjust, the market sales fell sharply, and the income of enterprises and employees was damaged. The specific degree of impact on the X-ray fluorescence spectrometer depends on the effectiveness of the prevention and control of the new coronavirus, and a severe impact on the first quarter and other short-term periods is inevitable. In addition, the new crown epidemic has affected the operation and development of the downstream industries of X-ray fluorescence spectrometers, and the development of downstream industries has also limited the demand for X-ray fluorescence spectrometer products.
X-ray analysis technology has the advantages of non-destructive analysis of samples, economical and convenient sample preparation, simple operation, good reproducibility of analysis results and high precision, which makes this technology especially favored in the analysis of thin film characteristics, semiconductor materials and surface detection of magnet materials. . X-ray fluorescence spectrometer is a real nondestructive testing method, which has the advantages of no pollution to the environment and low consumption. The tested sample remains unchanged regardless of its chemical composition, weight, shape, etc. before and after measurement. It is especially suitable for on-site or online analysis, and can acquire various data in real time. X-ray fluorescence spectrometer analysis is fast, because there is generally no need for sample pretreatment. Even without sample preparation, X-ray fluorescence spectrometer can carry out rapid pre-screening analysis on a large number of samples. Under normal circumstances, it takes about 3 minutes to detect a sample.
X-ray fluorescence spectrometers have a wide range of applications. It can simultaneously measure multiple elements in the sample, and the detectable content of elements ranges from 106 to 100%. It is widely used in many fields such as geology, metallurgy, chemical industry, materials, petroleum, medical treatment, and archaeology. X-ray fluorescence spectrometer has become a powerful instrument. Powerful qualitative and semi-quantitative analytical testing techniques.
At present, the whole X-ray fluorescence spectrometer is developing in the direction of miniaturization, specialization, multi-function and intelligence, and the instrument analysis is developing in the direction of high sensitivity, high precision, wide range of analyzed elements and high accuracy. However, X-ray fluorescence spectrometry is not a perfect technology, and there are some shortcomings: (1) The determination of some light elements (Z ? 8) is still in the primary application stage, and the technology is not yet fully mature. (2) It is difficult to accurately detect non-metals and elements between metals and non-metals. When testing with the basic parameter method, if the test sample contains C, H, O and other elements, errors will occur. (3) It is difficult to achieve absolute analysis. Standard samples are generally required for quantitative analysis, and the valence states of elements cannot be distinguished. (4) For geological samples with complex components, representative samples are required to draw a standard curve, and the accuracy of the analysis results is based on the chemical analysis of standard samples. These inadequacies of X-ray fluorescence spectrometers limit the industry development.
Company Overview:
Olympus
Olympus Corporation successfully commercialized the microscope in Japan in 1920, and the endoscope, which plays an extremely important role in the field of cancer prevention, was developed by Olympus for the first time in the world in 1950. So far, Olympus Corporation has become one of the representative enterprises of precision and optical technology in Japan and even the world. Its business fields include three major business fields of medical, imaging and life science industries. Olympus' corporate mission is to realize the health, security and happiness of people around the world, and to contribute to cutting-edge medical and life science research. As a responsible corporate citizen, Olympus has always been committed to developing technologies and products, improving services, meeting the fundamental requirements of people and society around the world through business activities, and making extensive contributions to society.
Thermo Fisher Scientific
Thermo Fisher Scientific is a global leader in scientific services, dedicated to helping customers make the world healthier, cleaner and safer. The main types of customers include pharmaceutical and biological companies, hospitals and clinical diagnostic laboratories, universities, research institutes and government agencies, as well as environmental and industrial process control equipment manufacturers. Through four premier brands, Thermo Scientific, Life Technologies, Fisher Scientific and Unity Lab Services, the company helps customers solve challenges in analytical chemistry ranging from routine testing to complex research and development projects. Thermo Scientific can provide customers with a complete set of comprehensive laboratory solutions including high-end analytical instruments, laboratory equipment, software, services, consumables and reagents. Fisher Scientific provides a line of laboratory equipment, chemicals, and other supplies and services to customers in the fields of healthcare, scientific research, and safety and education. Thermo Fisher Scientific will strive to provide customers with the most convenient procurement solutions, continuously improve technology for the rapid development of scientific research, enhance customer value, and create a good development space for employees.
Olympus Enterprises is one of the key players in the market, holding a 30.95% market share in 2022.
Segmentation Overview:
With the advancement of science and technology, after the invention of semiconductor detectors in the early 1960s, energy spectrum analysis of X-fluorescence became possible. Energy dispersive X-ray fluorescence spectrometer (ED-XRF) uses an X-ray tube to generate primary X-rays to irradiate the sample, and the generated characteristic X-rays (fluorescence) directly enter the semiconductor detector, and qualitative analysis and analysis can be carried out accordingly. quantitative analysis. The energy dispersive X-ray fluorescence spectrometer is referred to as energy dispersive XRF. There is no complicated spectroscopic system. The X-ray fluorescence directly enters the detector, and then enters the multi-channel pulse amplitude analyzer after being amplified by the amplifier to separate and process the pulses of different energies. It is possible to perform energy resolution (qualitative analysis) and quantitative determination on the X-ray spectrum with a wide energy range at the same time.
The wavelength dispersive X-ray fluorescence spectrometer (WD-XRF) uses a crystal to split the light and then the detector receives the diffracted characteristic X-ray signal. If the spectroscopic crystal and the detector move synchronously and constantly change the diffraction angle, the wavelength of the characteristic X-rays produced by various elements in the sample and the intensity of X-rays of each wavelength can be obtained, and qualitative and quantitative analysis can be carried out accordingly. This instrument was produced in the 1950s. It has attracted attention because it can measure multiple components at the same time in complex systems. Especially in the geological department, this instrument has been equipped successively, and the analysis speed has been significantly improved, which has played an important role.
By type, the energy dispersive segment held the largest market share in 2021.
Application Overview:
X-ray fluorescence spectrometer analysis has the advantages of simple spectral lines, fast analysis speed, more measurement elements, and simultaneous analysis of multiple elements. It is one of the three analytical methods widely used in elemental analysis of atmospheric particulate matter (the other two methods are neutron activation analysis and proton fluorescence analysis). As an important part of nuclear geophysical methods and nuclear technology applications, X-ray fluorescence method involves a wide range of aspects. In addition to geological exploration and mineral resource evaluation, which were first applied and widely praised, it is also used in mineral processing, metallurgy, chemical industry, biomedicine, petroleum, natural gas, environmental protection, industrial product testing, precious metal testing, coating research, cultural relics identification, etc. This aspect has been widely used. With the development of science and the improvement of X-ray fluorescence method, the depth and breadth of its application will be further increased. At present, X-ray fluorescence spectrometer has also become an important analysis method in the fields of semiconductor, food, commodity inspection, etc. It is also a fast, accurate and economical multi-element analysis method commonly used in material science, life science, and environmental science.
By application, the scientific research segment holds the largest market share from 2021 to 2027.
This report covers a research time span from 2018 to 2028, and presents a deep and comprehensive analysis of the global X-ray fluorescence spectrometer market, with a systematical description of the status quo and trends of the whole market, a close look into the competitive landscape of the major players, and a detailed elaboration on segment markets by type, by application and by region.
Key Takeaways from the Global X-ray fluorescence spectrometer Market Report:
Market Size Estimates: X-ray fluorescence spectrometer market size estimation in terms of value and sales volume from 2018-2028
Market Trends and Dynamics: X-ray fluorescence spectrometer market drivers, opportunities, challenges, and risks
Macro-economy and Regional Conflict: Influence of global inflation and Russia & Ukraine War on the X-ray fluorescence spectrometer market
Segment Market Analysis: X-ray fluorescence spectrometer market value and sales volume by type and by application from 2018-2028
Regional Market Analysis: X-ray fluorescence spectrometer market situations and prospects in North America, Asia Pacific, Europe, Latin America, Middle East, Africa
Country-level Studies on the X-ray fluorescence spectrometer Market: Revenue and sales volume of major countries in each region
X-ray fluorescence spectrometer Market Competitive Landscape and Major Players: Analysis of 10-15 leading market players, sales, price, revenue, gross, gross margin, product profile and application, etc.
Trade Flow: Import and export volume of the X-ray fluorescence spectrometer market in major regions.
X-ray fluorescence spectrometer Industry Value Chain: X-ray fluorescence spectrometer market raw materials & suppliers, manufacturing process, distributors, downstream customers
X-ray fluorescence spectrometer Industry News, Policies & Regulations
Key players in the global X-ray fluorescence spectrometer market are covered in Chapter 12:
Dandong Oriental Measurement and Control Technology Co., Ltd.
Hitachi
SPECTRO
Thermo Fisher Scientific
Tianrui Instrument
Bruker
Metso Outotec
HORIBA
RIGAKU
Olympus
Shimadzu
Shanghai Jingpu Technology Co., Ltd.
Malvern Panalytical
In Chapter 2 and Chapter 15.1, based on types, the X-ray fluorescence spectrometer market from 2018 to 2028 is primarily split into:
Energy Dispersive
Wavelength Dispersive
In Chapter 3 and Chapter 15.2, based on applications, the X-ray fluorescence spectrometer market from 2018 to 2028 covers:
Scientific Research
Environment
Geology
Chemical Industry
Metallurgy
Materials
Electronics
Other
Geographically, the detailed analysis of consumption, revenue, market share and growth rate of the following regions are covered in Chapter 7, 8, 9, 10, 11, 15.3, 15.4:
North America (Covered in Chapter 7)
United States
Canada
Asia-Pacific (Covered in Chapter 8)
China
Japan
India
South Korea
Southeast Asia
Australia
Others
Europe (Covered in Chapter 9)
Germany
France
UK
Italy
Spain
Russia
Poland
Others
Latin America (Covered in Chapter 10)
Mexico
Brazil
Argentina
Others
Middle East and Africa (Covered in Chapter 11)
GCC Countries
Africa
Others
The data of this research report is mainly obtained from industry associations, magazines, press releases, national customs, annual reports of enterprises, expert interviews, paid databases and other channels with authority. It also provides scientific forecasts of the industry's core development indicators through professional analysis and forecasting models.
In short, whatever role you take in this industry value chain, this report will help you or your company to acquire a systematic and in-depth understanding of the industry.
Chapter Outline
This report consists of 16 chapters. Below is a brief guideline to help you quickly grasp the main contents of each chapter:
Chapter 1 starts the report with an overview of the X-ray fluorescence spectrometer market, as well as the definitions of the target market and the subdivisions. Through the presented global market size, regional market sizes, and segment market shares, you will be able to draw an overall and comprehensive picture of the market situation. Meanwhile, the research method and data source will be shared in this chapter.
Chapter 2 and Chapter 3 breaks down the market by different types and applications, with historic data presented in metrics of sales volume, revenue, market share and growth rate.
Chapter 4 elaborates on market dynamics and future trends in the industry, which contains an in-depth analysis of market drivers, opportunities, challenges, and risks. Other essential factors that will have a major impact on the market, i.e., industry news and policies in recent years, global inflation, and regional conflict, are also taken into consideration.
Chapter 5 compares the sales volume and revenue of the major regions across the globe, which enables the readers to understand the regional competitive pattern.
Chapter 6 is the analysis of the trade flow. Import volume and export volume are revealed on a regional level.
Chapters 7-11 focus on country-level studies. Data from the major countries in each region are provided, showing the current development of the industry in different countries. Besides, you will also find qualitative trends analysis under global inflation under each of the 6 regions.
Chapter 12 first up presents the competitive landscape by displaying and comparing the revenues, sales volumes, and market shares of the top players in the market, followed by a company-by-company analysis of all the major market participants with introductions of their products, product applications, company profiles, and business overview. In addition, their competitiveness is manifested through numbers of sales volume, revenue, price, gross and gross margin.
Chapter 13 looks into the whole market industrial chain, ranging from the upstream key raw materials and their suppliers to midstream distributors and downstream customers, with influences of global inflation taken into consideration.
Chapter 14 is perfect for those who wish to develop new projects in the industry. This chapter sheds a light on industry entry barriers and gives suggestions on new project investments.
Chapter 15 forecasts the future trend of the market from the perspective of different types, applications, and major regions.
Chapter 16 is the conclusion of the report which helps the readers sum up the main findings and insights.
Years considered for this report:
Historical Years: 2018-2022
Base Year: 2022
Estimated Year: 2023
Forecast Period: 2023-2028