5-Bromo-N-phenylthiazol-2-amine
≥95%
- Product Code: 120237
CAS:
63615-95-2
Molecular Weight: | 255.13 g./mol | Molecular Formula: | C₉H₇BrN₂S |
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EC Number: | MDL Number: | MFCD11870399 | |
Melting Point: | Boiling Point: | ||
Density: | Storage Condition: | 2-8°C, protected from light, stored in an inert gas |
Product Description:
This compound is primarily utilized in the field of organic synthesis, where it serves as a key intermediate in the production of various pharmacologically active molecules. Its structure, featuring a bromine atom and a phenylthiazolamine moiety, makes it a valuable building block for the development of heterocyclic compounds, which are often explored for their potential therapeutic properties.
In medicinal chemistry, it is frequently employed in the synthesis of thiazole derivatives, which are known for their diverse biological activities, including antimicrobial, anti-inflammatory, and anticancer effects. Researchers leverage its reactivity to introduce additional functional groups or modify its core structure, enabling the creation of novel compounds for drug discovery programs.
Additionally, it finds application in material science, where it is used to design and synthesize organic materials with specific electronic or optical properties. Its incorporation into polymers or small molecules can lead to the development of advanced materials for use in sensors, organic light-emitting diodes (OLEDs), or other electronic devices.
Overall, its versatility and reactivity make it a valuable tool in both pharmaceutical and material science research.
Sizes / Availability / Pricing:
Size (g) | Availability | Price | Quantity |
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0.100 | 10-20 days | ฿2,970.00 |
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0.250 | 10-20 days | ฿4,950.00 |
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1.000 | 10-20 days | ฿14,832.00 |
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5-Bromo-N-phenylthiazol-2-amine
This compound is primarily utilized in the field of organic synthesis, where it serves as a key intermediate in the production of various pharmacologically active molecules. Its structure, featuring a bromine atom and a phenylthiazolamine moiety, makes it a valuable building block for the development of heterocyclic compounds, which are often explored for their potential therapeutic properties.
In medicinal chemistry, it is frequently employed in the synthesis of thiazole derivatives, which are known for their diverse biological activities, including antimicrobial, anti-inflammatory, and anticancer effects. Researchers leverage its reactivity to introduce additional functional groups or modify its core structure, enabling the creation of novel compounds for drug discovery programs.
Additionally, it finds application in material science, where it is used to design and synthesize organic materials with specific electronic or optical properties. Its incorporation into polymers or small molecules can lead to the development of advanced materials for use in sensors, organic light-emitting diodes (OLEDs), or other electronic devices.
Overall, its versatility and reactivity make it a valuable tool in both pharmaceutical and material science research.
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