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4-Bromomethyl-2-Cyanobiphenyl (Bromo OTBN)

 AD PHARMACHEM is known for manufacturer of 4-Bromomethyl-2-Cyanobiphenyl (Bromo OTBN) intermediates. 

 

4-Bromomethyl-2-Cyanobiphenyl, also known as Bromo OTBN, plays a crucial role in making medicines like azilsartan ester and temisartan. It’s an important ingredient in creating different types of drugs. Scientists are studying how this chemical can help detect harmful substances in medications and learning more about its behavior in different liquids. This special ingredient is key to producing life-saving treatments! 

 

AD PHARMACHEM offers high quality 4 Bromomethyl 2 Cyanobiphenyl for your pharmaceutical or chemical needs? This organic compound is highly sought after in the industry for its unique structure and versatile properties. 

 

Whether you need it as an active pharmaceutical ingredient API intermediate or for research purposes. we work hard to provide the highest caliber products to you. Trust us to deliver a reliable source of 4 Bromomethyl 2 Cyanobiphenyl that meets your requirements. 

 

Don’t compromise on the quality of your ingredients. Choose 4 Bromomethyl 2 Cyanobiphenyl for your next project and experience the difference it can make in your formulations.

Physical and Chemical Properties of 4-Bromomethyl-2-Cyanobiphenyl

Appearance : off-white powder

Boiling Point : 413.2±38.0 °C at 760 mmHg

 

Melting Point : 125-128 °C(lit.)

 

Molecular Formula : C14H10BrN

 

Molecular Weight : 272.140

 

Flash Point : 203.7±26.8 °C

4-Bromomethyl-2-Cyanobiphenyl (Bromo OTBN)

Application of 4-Bromomethyl-2-Cyanobiphenyl (Bromo OTBN)

1. Pharmaceutical Synthesis: Used as an intermediate in the synthesis of angiotensin II receptor antagonists, such as Losartan, which are medications for treating high blood pressure and heart failure.

2. Chemical Reactions: Utilized in nucleophilic substitution reactions to introduce various functional groups into organic molecules, aiding in the development of complex chemical structures.

 

3. Medicinal Chemistry: Employed in the construction of specific molecular frameworks needed for drug design and development.

 

4. Organic Synthesis: Applied in the production of various organic compounds in research and industrial settings where precise chemical modifications are required.

 

5. Material Science: May be used in the development of specialized materials with specific chemical properties.