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Specifications of Formamidine acetate丨3473-63-0
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Property |
Specification |
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Appearance |
White crystal |
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Water content |
0.5% max |
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Melting point |
157-161°C |
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Assay |
98% min by T. |
Transport Information of Formamidine acetate丨3473-63-0
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Parameter |
Specification |
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UN Number |
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Class |
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Packing Group |
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H.S. Code |
2925290090304 |
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Stability & Reactivity |
Stable |
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Storage |
Tightly closed. Store in a closed, dry, ventilated place |
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Condition to Avoid |
Moisture, air |
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Package |
Manufacturing Information of Formamidine acetate丨3473-63-0
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Parameter |
Specification |
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Capacity |
200MT/year |
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Frequency |
5 batch/day |
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Main Export Countries |
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Capacity/Batch |
1MT/batch |
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Experience |
Production since 2014 |
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Facilities |
Introduction of Formamidine acetate丨3473-63-0
Formamidine acetate丨3473-63-0 is a chemical compound with the molecular formula CH₃NH=C(NH₂)OAC. It is the acetate salt of formamidine and is known for its use in various chemical synthesis processes, particularly in organic chemistry. Formamidine acetate contains both an amine group and an amide group, making it a versatile compound in the preparation of more complex chemicals.
Applications of Formamidine acetate丨3473-63-0
1. Intermediate in Pharmaceutical Synthesis
Formamidine acetate is primarily used as an intermediate in the synthesis of pharmaceuticals. Due to its functional groups, it plays a crucial role in the creation of complex heterocyclic compounds and drug molecules.
● Synthesis of Drug Precursors: It is often used as a building block in the synthesis of pharmaceutical intermediates, particularly for compounds that require amine or amide groups as part of their structure.
● Anticancer and Antiviral Agents: Certain derivatives of formamidine acetate are being researched for their potential as anticancer or antiviral agents. These compounds may show biological activity against specific types of cancers or viral infections.
2. Agrochemical Production
Formamidine acetate is employed in the synthesis of various agrochemicals, especially in the production of herbicides and pesticides. The presence of amine and amide groups makes it a valuable precursor in the formulation of plant protection chemicals.
● Herbicides and Pesticides: As an intermediate, formamidine acetate may be used in the production of weed killers, insecticides, and fungicides that target specific pests or fungal strains in agricultural settings.
● Agricultural Chemicals for Crop Protection: It plays a role in synthesizing compounds that protect crops from diseases, weeds, and insect infestations, thus contributing to more effective agricultural practices.
3. Organic Synthesis and Chemical Reactions
Formamidine acetate丨3473-63-0 is a useful reagent in organic synthesis, particularly in reactions involving nucleophilic substitution, condensation reactions, and formation of amides.
● Formation of Amide Derivatives: As a compound containing both amine and amide groups, formamidine acetate can be used in amide formation reactions, which are crucial in the synthesis of a wide range of organic compounds.
● Synthesis of Heterocyclic Compounds: The acetate form of formamidine can be involved in the synthesis of heterocyclic compounds, especially those used in the manufacture of pharmaceuticals and fine chemicals.
● Catalyst in Chemical Reactions: In certain chemical processes, formamidine acetate may act as a catalyst or catalyst precursor, helping to promote specific reactions without being consumed in the process.
4. Polymer Chemistry
In polymer chemistry, formamidine acetate may be used as a reagent for the synthesis of polyurethanes and other polymeric materials. The chemical can contribute to the formation of urea-based or amide-based polymers, which are used in a variety of applications, such as coatings, adhesives, and plastics.
● Polymer Synthesis: Formamidine acetate can act as a reactant in the formation of polyurethane elastomers, which are widely used in the automotive and construction industries for their durability and flexibility.
● Crosslinking Agent: The compound may also be involved in crosslinking reactions that modify the physical properties of polymers, providing improved stability, strength, and resistance to environmental factors like temperature and moisture.
5. Electronics and Material Science
Formamidine acetate丨3473-63-0 has potential applications in the field of materials science. Due to its reactivity and functional groups, it may be used in the production of organic semiconductors or in the synthesis of other materials for use in the electronics industry.
● Organic Electronics: Researchers have explored the use of formamidine acetate in organic electronics for creating organic light-emitting diodes (OLEDs), organic solar cells, or electronic displays. The compound's reactivity and ability to form conductive materials make it valuable for material synthesis in this field.
Benefits of Formamidine acetate丨3473-63-0
1. Versatility in Organic Synthesis
One of the key benefits of formamidine acetate is its versatility in organic synthesis. The presence of both amine and amide functional groups allows it to participate in a variety of chemical reactions, including:
● Condensation reactions for the formation of amides and other derivatives.
● Nucleophilic substitution reactions that create new functional groups.
● Reactions with carbonyl compounds to form a wide range of functionalized chemicals.
This makes it an invaluable reagent for chemists involved in the development of new organic compounds or in the creation of complex chemical structures.
2. Applications in Drug Development
Formamidine acetate's role as an intermediate in drug development is a significant benefit. The ability to produce pharmaceutical intermediates quickly and efficiently means that it is a vital component in the synthesis of new drugs. Its amine and amide groups contribute to the synthesis of complex heterocyclic compounds that are often found in modern drugs.
● Pharmaceutical Research: Researchers in the pharmaceutical industry can use formamidine acetate as a starting material for developing new therapeutic agents for a wide range of diseases, including cancer, viral infections, and inflammatory conditions.
3. Contribution to Agricultural Innovation
In agriculture, formamidine acetate is beneficial as a precursor for the development of agrochemicals. It helps to produce effective herbicides, insecticides, and fungicides that are essential for modern agricultural practices. These chemicals contribute to increased crop yields and protection against pests and diseases.
● Improved Crop Protection: The synthesis of agrochemicals using formamidine acetate enhances the ability to combat pests and diseases, thereby supporting global food security and reducing crop loss.
4. Sustainability in Polymer Manufacturing
The use of Formamidine acetate丨3473-63-0 in polymer synthesis offers the potential for developing more sustainable polymeric materials. Polymers that are durable, biodegradable, and have reduced environmental impact are becoming increasingly important in industries such as packaging, construction, and automotive.
● Eco-Friendly Polymers: By integrating formamidine acetate into the production of eco-friendly polymers, the chemical industry can reduce the environmental footprint of synthetic materials, leading to greener manufacturing practices.
5. Chemical and Material Innovation
Formamidine acetate's reactivity makes it an important reagent in the development of new materials for electronic applications, particularly in the emerging fields of organic electronics. This includes organic semiconductors used in displays, solar cells, and other electronic devices.
● Electronics Industry: The versatility of formamidine acetate in material synthesis opens up possibilities for innovative and cost-effective electronic devices.
Conclusion
Formamidine acetate丨3473-63-0 is a versatile chemical compound with a range of applications in industries such as pharmaceuticals, agrochemicals, organic synthesis, polymer chemistry, and materials science. Its ability to participate in a variety of chemical reactions makes it a valuable intermediate for the synthesis of complex organic compounds, including those used in drug development and agricultural chemicals.

