Cas no 1894339-43-5 (2-\u200bBromo-\u200b4-\u200b(1-\u200bmethylethoxy)\u200bmethyl\u200b-thiazole)

2-\u200bBromo-\u200b4-\u200b(1-\u200bmethylethoxy)\u200bmethyl\u200b-thiazole structure
1894339-43-5 structure
Product Name:2-\u200bBromo-\u200b4-\u200b(1-\u200bmethylethoxy)\u200bmethyl\u200b-thiazole
CAS No:1894339-43-5
MF:C7H10BrNOS
MW:236.129399776459
CID:5057141
Update Time:2025-07-19

2-\u200bBromo-\u200b4-\u200b(1-\u200bmethylethoxy)\u200bmethyl\u200b-thiazole Chemical and Physical Properties

Names and Identifiers

    • 2-?Bromo-?4-?[(1-?methylethoxy)?methyl]?-thiazole
    • 2-\u200bBromo-\u200b4-\u200b(1-\u200bmethylethoxy)\u200bmethyl\u200b-thiazole
    • Inchi: 1S/C7H10BrNOS/c1-5(2)10-3-6-4-11-7(8)9-6/h4-5H,3H2,1-2H3
    • InChI Key: XGEOOQYPYYPFPP-UHFFFAOYSA-N
    • SMILES: S1C=C(COC(C)C)N=C1Br

2-\u200bBromo-\u200b4-\u200b(1-\u200bmethylethoxy)\u200bmethyl\u200b-thiazole Pricemore >>

Related Categories No. Product Name Cas No. Purity Specification Price update time Inquiry
TRC
B189430-100mg
2-\u200bBromo-\u200b4-\u200b[(1-\u200bmethylethoxy)\u200bmethyl]\u200b-thiazole
1894339-43-5
100mg
$ 224.00 2023-04-19
TRC
B189430-500mg
2-\u200bBromo-\u200b4-\u200b[(1-\u200bmethylethoxy)\u200bmethyl]\u200b-thiazole
1894339-43-5
500mg
$ 994.00 2023-04-19
TRC
B189430-1g
2-\u200bBromo-\u200b4-\u200b[(1-\u200bmethylethoxy)\u200bmethyl]\u200b-thiazole
1894339-43-5
1g
$ 1445.00 2022-06-07
TRC
B189430-1000mg
2-\u200bBromo-\u200b4-\u200b[(1-\u200bmethylethoxy)\u200bmethyl]\u200b-thiazole
1894339-43-5
1g
$ 1745.00 2023-04-19

Additional information on 2-\u200bBromo-\u200b4-\u200b(1-\u200bmethylethoxy)\u200bmethyl\u200b-thiazole

Comprehensive Overview of 2-Bromo-4-(1-methylethoxy)methyl-thiazole (CAS No. 1894339-43-5)

2-Bromo-4-(1-methylethoxy)methyl-thiazole (CAS No. 1894339-43-5) is a specialized organic compound that has garnered significant attention in the fields of pharmaceutical research, agrochemical development, and material science. This compound, characterized by its unique thiazole ring structure and bromo substituent, offers versatile applications due to its reactive properties and molecular stability. Researchers and industry professionals are increasingly exploring its potential in drug synthesis, crop protection, and advanced material formulations.

The growing interest in 2-Bromo-4-(1-methylethoxy)methyl-thiazole is driven by its role as a key intermediate in the synthesis of biologically active molecules. Its thiazole core is a common motif in many FDA-approved drugs, particularly those targeting infectious diseases and metabolic disorders. Additionally, the compound's bromo functional group makes it a valuable building block for cross-coupling reactions, which are pivotal in modern organic chemistry. This dual functionality positions it as a critical component in the development of next-generation therapeutics and sustainable agrochemicals.

In the context of green chemistry and sustainable synthesis, 2-Bromo-4-(1-methylethoxy)methyl-thiazole aligns with the global push for environmentally friendly chemical processes. Its efficient synthesis routes and potential for low-waste production make it an attractive candidate for industries aiming to reduce their carbon footprint. Moreover, the compound's stability under various conditions ensures its suitability for large-scale manufacturing, addressing the demand for scalable and cost-effective chemical solutions.

From a market perspective, the demand for 2-Bromo-4-(1-methylethoxy)methyl-thiazole is expected to rise, particularly in regions with robust pharmaceutical and agricultural sectors. Analysts highlight its relevance in the development of novel antimicrobial agents and herbicides, where its structural features enable targeted activity and reduced environmental impact. This trend is further supported by increasing investments in R&D, as companies seek to capitalize on the compound's multifunctional properties.

For researchers and manufacturers, understanding the physicochemical properties of 2-Bromo-4-(1-methylethoxy)methyl-thiazole is essential. Its solubility, melting point, and reactivity profile are critical factors in optimizing synthesis protocols and application methods. Recent studies have also explored its potential in catalysis and nanomaterial synthesis, broadening its scope beyond traditional uses. These advancements underscore the compound's adaptability and future potential in emerging scientific fields.

In summary, 2-Bromo-4-(1-methylethoxy)methyl-thiazole (CAS No. 1894339-43-5) represents a cutting-edge chemical entity with wide-ranging applications. Its significance in drug discovery, agrochemical innovation, and sustainable chemistry makes it a focal point for ongoing research and industrial development. As scientific and technological landscapes evolve, this compound is poised to play a pivotal role in addressing some of the most pressing challenges in chemistry and beyond.

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