Cas no 344297-40-1 (Benzothiazole,2-ethyl-5-methyl-)

Benzothiazole,2-ethyl-5-methyl- is a heterocyclic organic compound featuring a benzothiazole core substituted with ethyl and methyl groups at the 2- and 5-positions, respectively. This structure imparts unique chemical properties, making it valuable in applications such as agrochemicals, pharmaceuticals, and material science. Its aromatic thiazole ring enhances stability and reactivity, while the alkyl substituents influence solubility and interaction with other molecules. The compound is particularly useful as an intermediate in synthesizing more complex molecules, including dyes, corrosion inhibitors, and bioactive agents. Its well-defined structure allows for precise modifications, enabling tailored performance in specialized formulations. Handling requires standard safety precautions for organic compounds.
Benzothiazole,2-ethyl-5-methyl- structure
344297-40-1 structure
Product Name:Benzothiazole,2-ethyl-5-methyl-
CAS No:344297-40-1
MF:C10H11NS
MW:177.266041040421
CID:302455
Update Time:2025-09-27

Benzothiazole,2-ethyl-5-methyl- Chemical and Physical Properties

Names and Identifiers

    • Benzothiazole,2-ethyl-5-methyl-
    • Benzothiazole, 2-ethyl-5-methyl- (9CI)
    • Inchi: 1S/C10H11NS/c1-3-10-11-8-6-7(2)4-5-9(8)12-10/h4-6H,3H2,1-2H3
    • InChI Key: OQQOKAMXIGXUBC-UHFFFAOYSA-N
    • SMILES: N1C2=C(C=CC(C)=C2)SC=1CC

Computed Properties

  • Exact Mass: 177.06133

Experimental Properties

  • PSA: 12.89

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Additional information on Benzothiazole,2-ethyl-5-methyl-

Benzothiazole, 2-Ethyl-5-Methyl- (CAS No. 344297-40-1)

Benzothiazole, 2-Ethyl-5-Methyl-, also known by its CAS registry number 344297-40-1, is a versatile organic compound belonging to the benzothiazole family. This compound is characterized by its unique structure, which includes a benzene ring fused with a thiazole ring, featuring an ethyl group at the 2-position and a methyl group at the 5-position. The combination of these substituents imparts distinctive chemical and physical properties to the molecule, making it a subject of interest in various scientific and industrial applications.

The synthesis of Benzothiazole, 2-Ethyl-5-Methyl- involves a series of well-established organic reactions. Typically, the compound is derived from the condensation of an appropriate thioamide with an aldehyde or ketone in the presence of an acid catalyst. The specific substitution pattern at positions 2 and 5 is achieved through careful control of the reaction conditions and starting materials. This compound is often used as an intermediate in the synthesis of more complex molecules, particularly in pharmaceuticals and agrochemicals.

Recent studies have highlighted the potential of Benzothiazole, 2-Ethyl-5-Methyl- in the field of materials science. Researchers have explored its use as a building block for constructing advanced materials such as coordination polymers and metal-organic frameworks (MOFs). The ability of this compound to act as a ligand in these systems has been leveraged to create materials with tailored properties, including high surface area, porosity, and selectivity. These attributes make it particularly useful in applications such as gas storage, catalysis, and sensing technologies.

In addition to its role in materials science, Benzothiazole, 2-Ethyl-5-Methyl- has shown promise in the development of fluorescent sensors. Its inherent fluorescence properties are enhanced by the electron-donating groups at positions 2 and 5, which facilitate energy transfer processes within the molecule. This makes it an ideal candidate for designing sensors capable of detecting a wide range of analytes, including metal ions, organic molecules, and even biological entities such as proteins and nucleic acids.

The pharmacological potential of Benzothiazole, 2-Ethyl-5-Methyl- has also been explored in recent years. Studies have demonstrated that this compound exhibits significant antioxidant activity, which could be harnessed in the development of therapeutic agents targeting oxidative stress-related diseases such as neurodegenerative disorders and cardiovascular conditions. Furthermore, its ability to modulate cellular signaling pathways has been investigated, suggesting its potential role in anticancer drug discovery.

From an environmental perspective, Benzothiazole derivatives have been studied for their biodegradability and eco-friendly properties. Research indicates that compounds like Benzothiazole, 2-Ethyl-5-Methyl- exhibit relatively low toxicity to aquatic organisms under controlled conditions. This makes them suitable for use in applications where environmental impact is a concern.

In terms of market applications, Benzothiazole derivatives are widely used in various industries. For instance, they serve as intermediates in the synthesis of agrochemicals such as fungicides and herbicides. Their ability to enhance plant resistance against pathogens makes them valuable tools in sustainable agriculture practices.

The demand for Benzothiazole derivatives is expected to grow due to their increasing use in specialty chemicals and advanced materials. As researchers continue to uncover new applications for these compounds, their importance in both academic and industrial settings is likely to expand further.

In conclusion, Benzothiazole derivatives, including Benzothiazole, 2-Ethyl-5-Methyl-, CAS No:344297-40-1, represent a class of compounds with diverse applications across multiple disciplines. Their unique chemical properties make them invaluable tools for advancing scientific research and developing innovative solutions across industries.

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