Wide-range use analysis of FTIR spectroscopy
Fourier transform infrared spectrometer (FTIR) is an infrared spectrometer based on the Fourier transform principle, which obtains the molecular structure and chemical information of the sample by measuring the absorption and reflection of infrared light by the sample.
Wide range of uses: 1. Chemical analysis.
Qualitative and quantitative analysis of solid, liquid, and gaseous samples can be performed to obtain information such as molecular structure, functional group type, and content of samplesIn the research of organic chemistry, inorganic chemistry, medicinal chemistry, environmental chemistry and other fields, Fourier transform infrared spectroscopy plays an important role.
2. Materials Science.
It can be used to characterize the optical, electrical, and thermal properties of materials, as well as the molecular structure and chemical composition of materials.
3. Biomedicine.
It can be used to analyze proteins, nucleic acids, carbohydrates and other biological macromolecules in biological samples to obtain their molecular structure and functional informationIn addition, FTIR spectroscopy can also be used for drug analysis, efficacy evaluation, and disease diagnosis.
4. Environmental monitoring.
It can be used to detect organic pollutants, heavy metals and other toxic substances in environmental samples, providing a scientific basis for environmental protection and pollution controlIn addition, FTIR spectroscopy can also be used for calibration and detection of environmental monitoring instruments.
5. Food industry.
Applications in the food industry include food safety testing, quality control, and production process optimizationIt can be used to detect harmful substances, microorganisms and nutrients in food to ensure the quality and safety of foodIn addition, FTIR spectroscopy can also be used for detection and control in food processing.
6. Geological exploration.
It can be used to detect elements and compounds in geological samples such as rocks and soils, and to obtain geochemical informationIn addition, FTIR spectroscopy can also be used for geochemical exploration and deposit evaluation in oil and gas fields.
7. Petrochemical industry.
Applications in the petrochemical industry include analysis, refining process monitoring and product quality inspectionIt can be used to detect various components, additives and harmful substances in petroleum, and provide important technical support for petrochemical production.
8. Coal analysis.
The applications in the field of coal analysis mainly include coal quality testing, coal processing and coal utilizationIt can be used to detect elements, minerals and harmful substances in coal, and provide a scientific basis for the production and utilization of coal.
9. Optical communication.
The application in the field of optical communication is mainly reflected in optical fiber communication and optical waveguide technology, which can be used to detect the optical performance in optical fiber and optical waveguide, and provide technical support for the design and optimization of optical communication system.
10. Quantum technology.
Applications in the field of quantum technology include quantum computing, quantum communication, and quantum sensingIt can be used to detect the optical performance of quantum systems, providing important support for the research and application of quantum technology.