3828-49-7 | 2,3-Difluorotoluene

CAS:3828-49-7 | 2,3-Difluorotoluene,Description

2,3-Difluorotoluene is a chemical compound with the molecular formula C7H6F2. It is a derivative of toluene where two hydrogen atoms are replaced by fluorine atoms.

Molecular Structure Analysis

The molecular structure of 2,3-Difluorotoluene consists of a benzene ring with two fluorine atoms and one methyl group attached. The exact positions of these substituents on the benzene ring differentiate 2,3-Difluorotoluene from other isomers.

Physical And Chemical Properties Analysis

2,3-Difluorotoluene is a liquid at room temperature with a density of 1.096 g/mL at 25°C. It has a boiling point of 119-121°C.

Scientific Research Applications

• Study of Fluorine-Carbon Interactions

  • The presence of fluorine atoms in 2,3-Difluorotoluene allows researchers to study the unique interactions between fluorine and carbon atoms.
  • This knowledge is crucial for developing new materials with specific functionalities.
  • The results or outcomes obtained provide valuable insights into the interactions between fluorine and carbon atoms, which can be used to develop new materials with specific functionalities.

• Environmental Science: Investigating Atmospheric Processes

  • 2,3-Difluorotoluene is a minor component of some refrigerants and can be released into the atmosphere.
  • Researchers use it as a tracer molecule to study atmospheric transport and transformation processes of volatile organic compounds.
  • The results or outcomes obtained provide valuable insights into the atmospheric transport and transformation processes of volatile organic compounds.

• Developing New Methods for Air Quality Monitoring

  • The unique properties of 2,3-Difluorotoluene allow for its potential use in developing new methods for monitoring air quality.
  • This includes the detection of specific pollutants or understanding the overall composition of volatile organic compounds in the air.
  • The results or outcomes obtained could potentially improve the accuracy and efficiency of air quality monitoring.

• Biochemistry: Nucleotide Analog

  • 2,3-Difluorotoluene can be synthesized as a nucleotide analog and incorporated into DNA.
  • This allows for the study of DNA replication by DNA polymerase enzymes.
  • The results or outcomes obtained provide valuable insights into DNA replication processes.

• Battery Technology: Lithium-Ion Battery Additive

  • 2,3-Difluorotoluene is used as an additive to prevent overcharging of lithium-ion batteries.
  • This enhances the safety and longevity of the batteries.
  • The results or outcomes obtained include improved battery safety and longevity.

• Pharmaceutical Industry: Synthesis of Drug Molecules

  • 2,3-Difluorotoluene can be used as a building block in the synthesis of various drug molecules.
  • The presence of fluorine atoms can enhance the biological activity of the drug molecules.
  • The results or outcomes obtained include the production of drug molecules with enhanced biological activity.

• Chemical Industry: Production of Fluorinated Compounds

  • 2,3-Difluorotoluene is used in the production of other fluorinated compounds.
  • These compounds have a wide range of applications, including in the production of refrigerants, fire extinguishing agents, and pesticides.
  • The results or outcomes obtained include the production of a variety of fluorinated compounds with diverse applications.

Safety And Hazards

2,3-Difluorotoluene is a highly flammable liquid and vapor. It can cause skin irritation, serious eye irritation, and may cause respiratory irritation.

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