Cas no 195199-57-6 (Cyanamide, cyano-, lithium salt (9CI))

Cyanamide, cyano-, lithium salt (9CI) is a lithium-based derivative of cyanamide, characterized by its cyano functional group. This compound is primarily utilized in organic synthesis and as a precursor in the production of specialty chemicals. Its lithium salt form enhances solubility in polar solvents, facilitating reactions in homogeneous systems. The compound’s reactivity makes it valuable for nucleophilic additions and cyclization processes. It is also employed in the synthesis of pharmaceuticals and agrochemicals due to its ability to introduce the cyanamide moiety into target molecules. The product is handled under controlled conditions due to its hygroscopic nature and potential reactivity with protic solvents.
Cyanamide, cyano-, lithium salt (9CI) structure
195199-57-6 structure
Product Name:Cyanamide, cyano-, lithium salt (9CI)
CAS No:195199-57-6
MF:C2H2LiN3
MW:74.9983792304993
CID:1387677
Update Time:2025-08-03

Cyanamide, cyano-, lithium salt (9CI) Chemical and Physical Properties

Names and Identifiers

    • Cyanamide, cyano-, lithium salt
    • Cyanamide, cyano-, lithium salt (9CI)
    • Inchi: 1S/C2HN3.Li.H/c3-1-5-2-4;;/h5H;;
    • InChI Key: IEMBYWHMAHJJII-UHFFFAOYSA-N
    • SMILES: N(C#N)C#N.[LiH]

Cyanamide, cyano-, lithium salt (9CI) Pricemore >>

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Additional information on Cyanamide, cyano-, lithium salt (9CI)

Cyanamide, Cyano-, Lithium Salt (CAS No. 195199-57-6): A Comprehensive Overview

Cyanamide, cyano-, lithium salt, also known by its CAS number 195199-57-6, is a compound of significant interest in various scientific and industrial applications. This compound is a lithium salt of cyanamide, which is a derivative of hydrogen cyanide (HCN). The chemical structure of cyanamide consists of a nitrogen atom bonded to two carbon atoms, with one of the carbons bearing a cyano group (-CN). The lithium salt form enhances its stability and reactivity, making it a valuable component in numerous chemical processes.

Recent advancements in materials science have highlighted the potential of cyanamide, cyano-, lithium salt in the development of advanced materials. For instance, studies have shown that this compound can be used as a precursor for synthesizing metal-organic frameworks (MOFs) and covalent organic frameworks (COFs), which are highly porous materials with applications in gas storage, catalysis, and sensing. The ability of cyanamide to form stable coordination bonds with metal ions makes it an ideal candidate for such applications.

In the field of electrochemistry, cyanamide, cyano-, lithium salt has been explored as an electrolyte additive in lithium-ion batteries. Research indicates that incorporating this compound into battery electrolytes can improve ion conductivity and enhance the overall performance of the battery. This is particularly relevant in the context of the growing demand for high-energy-density batteries for electric vehicles and renewable energy storage systems.

The synthesis of cyanamide, cyano-, lithium salt typically involves the reaction of hydrogen cyanide with ammonia in the presence of a base, followed by neutralization with lithium hydroxide or another suitable lithium source. This process ensures the formation of a stable lithium salt with high purity. Recent studies have focused on optimizing the synthesis conditions to improve yield and reduce production costs, making this compound more accessible for large-scale applications.

In terms of physical properties, cyanamide, cyano-, lithium salt is known for its high thermal stability and low volatility. These characteristics make it suitable for use in high-temperature chemical reactions and industrial processes. Additionally, its solubility in polar solvents facilitates its application in solution-based chemical reactions and formulations.

The application of cyanamide derivatives extends into pharmaceuticals and agrochemicals. For example, certain derivatives have been investigated for their potential as herbicides or fungicides due to their ability to inhibit specific enzymatic pathways in plants and microorganisms. While these applications are still under research, they highlight the versatility of this compound across different industries.

In conclusion, Cyanamide, cyano-, lithium salt (CAS No. 195199-57-6) is a multifaceted compound with promising applications in materials science, electrochemistry, and beyond. Its unique chemical properties and compatibility with various synthesis methods make it a valuable tool for researchers and industry professionals alike. As ongoing research continues to uncover new uses and optimizations for this compound, its role in advancing technological innovations is expected to grow significantly.

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