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Catalog Number:
20276
CAS Number:
885277-27-0
4-Cloro-7-fluoro-2-(4-metoxifenil)quinazolina
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Product Information

4-Chloro-7-fluoro-2-(4-methoxyphenyl)quinazoline is a versatile compound recognized for its significant applications in pharmaceutical research and development. This compound, characterized by its unique molecular structure, exhibits potent biological activity, making it a valuable candidate in the synthesis of novel therapeutic agents. Its ability to interact with specific biological targets positions it as a promising lead in the development of treatments for various diseases, including cancer and inflammatory disorders.

Researchers appreciate 4-Chloro-7-fluoro-2-(4-methoxyphenyl)quinazoline for its favorable pharmacokinetic properties, which enhance its efficacy and bioavailability. The compound's stability and reactivity allow for easy incorporation into complex chemical syntheses, facilitating the creation of diverse derivatives tailored for specific applications. Its unique combination of chlorine and fluorine substituents contributes to its distinct reactivity profile, setting it apart from similar compounds in the quinazoline class. This makes it an essential tool for scientists aiming to innovate in drug discovery and development.

CAS Number
885277-27-0
Molecular Formula
C15H10ClFN2O
Molecular Weight
288.71
MDL Number
MFCD04115237
PubChem ID
53407934
Conditions
Conservar entre 0 y 8 °C.
General Information
CAS Number
885277-27-0
Molecular Formula
C15H10ClFN2O
Molecular Weight
288.71
MDL Number
MFCD04115237
PubChem ID
53407934
Conditions
Conservar entre 0 y 8 °C.
Properties
Additional property information coming soon!
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Safety and Regulations
Hazmat
No
Antibiotic
No
DEA-regulated
No
Warnings
-
Applications

4-Chloro-7-fluoro-2-(4-methoxyphenyl)quinazoline is widely utilized in research focused on:

  • Pharmaceutical Development: This compound is significant in the design of new drugs, particularly in oncology, due to its potential anti-cancer properties. Researchers are exploring its efficacy against various cancer cell lines.
  • Targeted Therapy: It is being investigated for use in targeted therapies, where it may inhibit specific molecular pathways involved in tumor growth, offering a more precise treatment option compared to traditional chemotherapy.
  • Biochemical Research: The compound serves as a valuable tool in biochemical studies, helping scientists understand the mechanisms of action of certain enzymes and receptors, which can lead to the discovery of new therapeutic targets.
  • Material Science: Its unique chemical structure allows for applications in developing advanced materials, such as organic semiconductors, which are crucial in electronics and photonics.
  • Diagnostic Tools: The compound is also being explored for its potential in creating diagnostic agents that can improve imaging techniques, aiding in early detection of diseases.

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