2-(6-Bromopyridin-2-yl)benzaldehyde
≥95%
Reagent
Code: #115810
CAS Number
914349-51-2
blur_circular Chemical Specifications
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Molecular Information
Weight
262.10 g/mol
Formula
C₁₂H₈BrNO
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Registry Numbers
MDL Number
MFCD05864830
thermostat
Physical Properties
Boiling Point
386.4°C at 760 mmHg
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Storage & Handling
Storage
2-8°C, store under inert gas
description Product Description
This chemical is primarily utilized in organic synthesis as a key intermediate for the development of various complex molecules. It is particularly valuable in the pharmaceutical industry, where it serves as a building block for the synthesis of active pharmaceutical ingredients (APIs) and drug candidates. Its structure, featuring both a bromopyridine and a benzaldehyde group, makes it a versatile precursor for constructing heterocyclic compounds, which are often found in drugs targeting neurological and inflammatory disorders.
In material science, it is employed in the design of organic electronic materials, such as light-emitting diodes (LEDs) and organic semiconductors, due to its ability to facilitate π-conjugation and electron transport. Additionally, it is used in agrochemical research for the development of novel pesticides and herbicides, leveraging its reactivity to create compounds with specific biological activities. Its role in catalysis and ligand design for transition metal complexes also highlights its importance in industrial chemical processes.
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2-(6-Bromopyridin-2-yl)benzaldehyde
This chemical is primarily utilized in organic synthesis as a key intermediate for the development of various complex molecules. It is particularly valuable in the pharmaceutical industry, where it serves as a building block for the synthesis of active pharmaceutical ingredients (APIs) and drug candidates. Its structure, featuring both a bromopyridine and a benzaldehyde group, makes it a versatile precursor for constructing heterocyclic compounds, which are often found in drugs targeting neurological and inflammatory disorders.
In material science, it is employed in the design of organic electronic materials, such as light-emitting diodes (LEDs) and organic semiconductors, due to its ability to facilitate π-conjugation and electron transport. Additionally, it is used in agrochemical research for the development of novel pesticides and herbicides, leveraging its reactivity to create compounds with specific biological activities. Its role in catalysis and ligand design for transition metal complexes also highlights its importance in industrial chemical processes.
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