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Catalog Number:
45820
CAS Number:
13194-67-7
4-Fluoro-2-iodotoluene
Purity:
≥ 97% (GC)
Hazmat
Documents
$67.20 /5G
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Product Information

4-Fluoro-2-iodotoluene is a versatile chemical compound that serves as a valuable intermediate in the synthesis of various organic compounds. With its unique halogen substituents, this compound is particularly useful in the development of pharmaceuticals, agrochemicals, and advanced materials. Its ability to participate in cross-coupling reactions makes it an essential building block for researchers looking to create complex molecular architectures.

In the pharmaceutical industry, 4-Fluoro-2-iodotoluene can be utilized in the synthesis of biologically active compounds, enhancing the efficacy of drug candidates. Additionally, its properties allow for modifications that can lead to improved performance in agrochemical formulations. The compound's stability and reactivity make it an attractive option for chemists aiming to streamline their synthetic pathways while achieving high yields. Overall, 4-Fluoro-2-iodotoluene stands out for its practical applications and potential to drive innovation in various fields.

CAS Number
13194-67-7
Purity
≥ 97% (GC)
Molecular Formula
C7H6FI
Molecular Weight
0
MDL Number
MFCD00013709
PubChem ID
83220
Density
1.81
Appearance
Colorless to orange to green clear liquid
Boiling Point
90 °C/15 mmHg
Refractive Index
n20D 1.58
Conditions
Store at RT
General Information
CAS Number
13194-67-7
Purity
≥ 97% (GC)
Molecular Formula
C7H6FI
Molecular Weight
0
MDL Number
MFCD00013709
PubChem ID
83220
Density
1.81
Appearance
Colorless to orange to green clear liquid
Boiling Point
90 °C/15 mmHg
Refractive Index
n20D 1.58
Conditions
Store at RT
Properties
Additional property information coming soon!
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Safety and Regulations
Hazmat
Yes
Antibiotic
No
DEA-regulated
No
Warnings
-
Applications

4-Fluoro-2-iodotoluene is widely utilized in research focused on:

  • Synthetic Organic Chemistry: This compound serves as a key intermediate in the synthesis of various pharmaceuticals and agrochemicals, enabling researchers to develop new drugs and crop protection agents.
  • Material Science: It is employed in the development of advanced materials, particularly in the creation of polymers and coatings that exhibit enhanced properties such as chemical resistance and durability.
  • Fluorine Chemistry: The presence of fluorine in its structure makes it valuable in fluorination reactions, which are essential for modifying organic compounds to improve their biological activity or stability.
  • Biochemical Research: This compound is used in the design of molecular probes for studying biological processes, allowing scientists to track cellular activities and interactions more effectively.
  • Pharmaceutical Development: Its unique properties facilitate the exploration of new therapeutic agents, particularly in targeting specific diseases, thus providing a competitive edge over similar compounds.

Citations