2,4-Dibromoquinoline

96%

  • Product Code: 40818
  CAS:    20151-40-0
Molecular Weight: 286.95 g./mol Molecular Formula: C₉H₅Br₂N
EC Number: MDL Number: MFCD00837761
Melting Point: 92-94°C Boiling Point: 344.3°C at 760 mmHg
Density: Storage Condition: 2-8°C, store under inert gas
Product Description: 2,4-Dibromoquinoline is primarily utilized in organic synthesis as a versatile building block for the creation of more complex chemical compounds. It serves as a key intermediate in the development of pharmaceuticals, particularly in the synthesis of antimalarial and anticancer agents due to its quinoline core, which is a common structural motif in many bioactive molecules. Additionally, it is employed in the production of agrochemicals, where it contributes to the formulation of pesticides and herbicides. Its bromine atoms make it a reactive substrate for further functionalization, enabling the introduction of various substituents to tailor its properties for specific applications. In material science, it is explored for the synthesis of organic electronic materials, such as light-emitting diodes (LEDs) and organic semiconductors, due to its electron-rich aromatic structure.
Product Specification:
Test Specification
APPEARANCE solid
PURITY 95.5-100
Infrared spectrum Conforms to Structure
NMR Conforms to Structure
Sizes / Availability / Pricing:
Size (g) Availability Price Quantity
0.250 10-20 days $190.36
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1.000 10-20 days $507.28
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2,4-Dibromoquinoline
2,4-Dibromoquinoline is primarily utilized in organic synthesis as a versatile building block for the creation of more complex chemical compounds. It serves as a key intermediate in the development of pharmaceuticals, particularly in the synthesis of antimalarial and anticancer agents due to its quinoline core, which is a common structural motif in many bioactive molecules. Additionally, it is employed in the production of agrochemicals, where it contributes to the formulation of pesticides and herbicides. Its bromine atoms make it a reactive substrate for further functionalization, enabling the introduction of various substituents to tailor its properties for specific applications. In material science, it is explored for the synthesis of organic electronic materials, such as light-emitting diodes (LEDs) and organic semiconductors, due to its electron-rich aromatic structure.
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