2-Iodobiphenyl丨CAS 2113-51-1

2-Iodobiphenyl丨CAS 2113-51-1
Product Introduction:
Catalog No.: SS106328
CAS No.: 2113-51-1
Purity(GC): 99%min
Product Name: 2-Iodobiphenyl
Molecular Formula: C12H9I
Molecular Weight: 280.10
Synonym(s): 2-Iodo-1,1-biphenyl
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Technical Parameters
Description

Hangzhou Leap Chem Co., Ltd. is one of the most professional manufacturers and suppliers of 2-iodobiphenyl丨cas 2113-51-1 in China. Welcome to wholesale bulk high quality chemical products at competitive price from our factory. If you have any enquiry about custom service, please feel free to email us.

 

Specifications

 

Appearance Light red to colorless liquid
Purity (GC) 99% min

 

 

 

Applications

 

2-Iodobiphenyl is an important halogenated aromatic compound widely used as an intermediate in organic synthesis, pharmaceuticals, and material science. It serves as a building block in the preparation of biphenyl derivatives, which are key in medicinal chemistry for drug design and development. In organic electronics and materials chemistry, it is applied in the synthesis of conjugated polymers, OLED materials, and liquid crystals. Additionally, 2-iodobiphenyl is used in cross-coupling reactions, such as Suzuki, Sonogashira, or Stille couplings, to produce complex functionalized aromatic compounds.

 

Benefits

 

The benefits of this compound include its high reactivity due to the iodine atom, which allows for efficient coupling and selective functionalization. Its biphenyl core provides structural rigidity and favorable electronic properties, enhancing stability and performance in advanced materials. The compound's versatility in chemical transformations makes it a valuable intermediate for synthesizing a wide range of bioactive molecules and optoelectronic materials. Its solid crystalline form ensures ease of handling, storage, and reproducible synthetic outcomes.

 

Conclusion

 

2-Iodobiphenyl is a versatile aromatic intermediate with applications in pharmaceuticals, organic electronics, and material synthesis. Its benefits include high reactivity, structural rigidity, and adaptability in functionalization, making it essential for the development of complex biphenyl-based compounds and advanced materials.

 

 

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