IODOMETHANE-D3,The Chinese name is deuterated iodomethane, also known as trideuterated iodomethane, iodomethane-12C-D3, etc. It is a chemical substance with a specific isotopic composition. As an isotope labeling reagent for iodomethane, this substance has similar chemical properties to iodomethane, but its behavior in chemical reactions may be slightly different due to isotopic effects. It is a colorless liquid at room temperature and has a certain degree of volatility. It may have some special chemical activity, depending on its specific isotopic composition and application environment. Due to its unique isotopic composition, it is commonly used as an isotope labeling reagent and has a wide range of applications in biochemical research, drug metabolism research, and other fields. In biochemical research, it can also be used for the analysis of peptides and polysaccharides using analytical spectroscopy techniques. By introducing deuterium labeling, it is easier to track and detect changes in these biomolecules. In addition, it may also be used in other scientific research fields such as materials science, environmental science, etc., depending on its isotopic effects and specific research needs. However, due to its hazardous nature, it poses risks such as acute toxicity, skin corrosiveness, and severe eye damage. During use, safety operating procedures should be strictly followed to prevent swallowing, inhalation, or skin contact. It is a flammable substance, and its vapor can form an explosive mixture with air, which can cause combustion and explosion when exposed to open flames or high heat energy. Reacts violently when in contact with oxidants. Toxic iodide smoke is generated from thermal decomposition, and harmful combustion products include hydrogen iodide and carbon monoxide, which need to be extinguished with foam, dry powder, carbon dioxide, sand, etc.
Iodomethane-d3 CAS 865-50-9
Product Code: BM-2-5-135
Research unit: BLOOM TECH
Chinese name: iodomethane-d3
CAS Number: 865-50-9
MF:cd3i
Molecular weight: 144.96
Appearance: Colorless liquid
EINECS Number: 212-744-5
Enterprise standard: High performance liquid chromatography>99.0%, nuclear magnetic resonance
Main markets: United States, Australia, Brazil, Japan, Germany, Indonesia, United Kingdom, New Zealand, Canada, etc.
Manufacturer: Bowen Technology Xi'an Factory
Technical Services: R&D Department-1
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Product:https://www.bloomtechz.com/synthetic-chemical/api-researching-only/organic-intermediate.html
What isIODOMETHANE-D3 used for?
Iodomethane-D3 (also known as deuterated iodomethane or trideuterated iodomethane) is an important chemical reagent with unique properties that make it widely used in multiple fields. The following is a detailed analysis of the purpose:
This compound has a special isotopic effect due to its presence of deuterium atoms, which makes it widely used in isotope labeling research. Isotope labeling is a technique for tracking the behavior of compounds in organisms or chemical reactions by introducing stable isotopes such as deuterium, carbon-13, nitrogen-15, etc. The deuterium atom in it can replace the hydrogen atom in ordinary iodomethane, providing an effective tracking method without changing the basic properties of the compound. In biomedical research, it can be used as an isotope labeling reagent to track the distribution and metabolic pathways of drugs, metabolites, or other biomolecules in the body. This technology helps scientists better understand the physiological and pathological processes of organisms, providing new ideas and methods for disease diagnosis and treatment. In the field of environmental monitoring, it can also be used as an isotope labeling reagent to track the sources and migration pathways of pollutants in the environment. By measuring the concentration and distribution of deuterated pollutants in the environment, scientists can assess the environmental impact of pollutants and provide scientific basis for environmental protection and governance.
Application in Nuclear Magnetic Resonance (NMR) Research
Nuclear magnetic resonance is an important physical phenomenon with wide applications in fields such as chemistry, biology, medicine, and materials science. It has unique advantages in nuclear magnetic resonance research, mainly reflected in the common use of iodomethane-D3 as a solvent in nuclear magnetic resonance research. Due to the different nuclear magnetic resonance properties of deuterium atoms compared to hydrogen atoms, the use of deuterated solvents can reduce the interference of solvents on sample signals, improve signal-to-noise ratio and resolution. This makes the compound an indispensable solvent in nuclear magnetic resonance research. It can also be used as a deuterated reagent for synthesizing deuterated compounds. These deuterated compounds have special value in nuclear magnetic resonance studies as they can provide more information about molecular structure and dynamic behavior. In addition, deuterated compounds can also be used to study the mechanisms and kinetic processes of chemical reactions.
Iodomethane-D3 has a wide range of applications in biochemical research, especially in the analysis of peptides and polysaccharides using spectroscopic techniques. Peptides are a class of compounds formed by connecting amino acids through peptide bonds, and they have various important physiological functions in the body. It can be used as an isotope labeling reagent to track the synthesis, degradation, and transport processes of peptides in organisms. By measuring the concentration and distribution of deuterated peptides, scientists can understand the metabolic pathways and regulatory mechanisms of peptides in organisms, providing new ideas and methods for drug development and disease treatment. Polysaccharides are a type of compound composed of monosaccharides connected by glycosidic bonds, and they have various important structures and functions in living organisms. This compound can also be used as an isotope labeling reagent to track the synthesis, degradation, and transport processes of polysaccharides in organisms. By measuring the concentration and distribution of deuterated polysaccharides, scientists can understand the metabolic pathways and regulatory mechanisms of polysaccharides in organisms, providing new ideas and methods for glycobiology and sugar drug development.
Application in Materials Science&Chemical Synthesis
Polymer materials are an indispensable class of materials in modern industry, possessing various excellent properties and a wide range of application fields. This compound can be used as a modifier for polymer materials, by introducing deuterium atoms to alter the structure and properties of polymer materials. This modification technology can improve the stability, heat resistance, chemical corrosion resistance and other properties of polymer materials, providing new possibilities for the application of polymer materials. Functional materials refer to materials with special functions or properties, which have a wide range of applications in fields such as energy, information, and biology. It can be used as one of the raw materials for the preparation of functional materials, and materials with special functions or properties can be prepared by reacting with other compounds. For example, the compound can react with metal ions to form metal organic framework materials (MOFs), which have potential applications in gas separation, catalysis, energy storage, and other fields. It can be used as one of the synthetic materials for deuterated compounds.
Various deuterated compounds can be prepared by reacting with other compounds. These deuterated compounds have special value in chemical research as they can provide more information about molecular structure and dynamic behavior. In addition, deuterated compounds can also be used to study the mechanisms and kinetic processes of chemical reactions. It can be used as a catalyst or co catalyst in certain organic synthesis reactions. By introducing deuterium atoms to alter the structure and performance of catalysts, the efficiency and selectivity of catalytic reactions can be improved. This catalytic technology can be applied to various organic synthesis reactions, providing new methods and pathways for the synthesis of organic compounds.
Conclusion
Iodomethane-D3,as an important chemical reagent, has wide application value in isotope labeling research, nuclear magnetic resonance research, biochemical research, materials science, chemical synthesis, and other fields. With the continuous development and progress of science and technology, people's understanding and utilization of it will also continue to deepen and expand. In the future, this compound is expected to play an important role in more fields, providing more possibilities and opportunities for scientific research and technological innovation. However, it is worth noting that although it has a wide range of application value, attention should also be paid to its safety and environmental friendliness during use. During use, relevant safety operating procedures and environmental regulations should be strictly followed to ensure the safety of personnel and the environment. At the same time, it is also necessary to strengthen the treatment and recycling of its waste to reduce pollution and damage to the environment. In addition, with the continuous development and progress of science and technology, people will have a deeper understanding and comprehension of the properties and applications of this compound. In the future, it is expected to discover its application value and potential in more fields through more research and exploration, providing more possibilities and opportunities for scientific research and technological innovation.