6,7-DIFLUORO-3-CHLORO (1H)INDAZOLE
Names and Identifiers of 6,7-DIFLUORO-3-CHLORO (1H)INDAZOLE
CAS Number |
1000343-96-3 |
|---|---|
IUPAC Name |
3-chloranyl-6,7-bis(fluoranyl)-2H-indazole |
Canonical SMILES |
C1=CC(=C(C2=NNC(=C21)Cl)F)F |
Physical and chemical properties of 6,7-DIFLUORO-3-CHLORO (1H)INDAZOLE
Boiling Point |
319.2±37.0 °C at 760 mmHg |
|---|---|
Density |
1.6±0.1 g/cm3 |
Exact Mass |
187.995285 |
Flash Point |
146.8±26.5 °C |
Index of Refraction |
1.638 |
LogP |
2.73 |
Molecular Formula |
C7H3ClF2N2 |
Molecular Weight |
188.562 |
PSA |
28.68000 |
Vapour Pressure |
0.0±0.7 mmHg at 25°C |
Applications of 6,7-DIFLUORO-3-CHLORO (1H)INDAZOLE
The compound finds applications across several fields:
- Chemistry: As a building block for synthesizing more complex heterocyclic compounds.
- Biology: Investigated for its biological activities that could lead to new therapeutic agents.
- Medicine: Serves as a scaffold in drug development targeting various diseases.
- Industry: Utilized in producing specialty chemicals with tailored properties.
Interaction Studies of 6,7-DIFLUORO-3-CHLORO (1H)INDAZOLE
Studies on the interactions of 3-Chloro-6,7-difluoro-1H-indazole with biological targets have shown promising results. Its ability to bind selectively to enzymes or receptors enhances its potential as a therapeutic agent. For instance, it may inhibit specific enzymes involved in disease pathways or activate certain receptors that modulate physiological responses. These interactions are crucial for understanding its pharmacological effects and optimizing its use in medicinal chemistry.
Biological Activity of 6,7-DIFLUORO-3-CHLORO (1H)INDAZOLE
Research indicates that 3-Chloro-6,7-difluoro-1H-indazole exhibits significant biological activities. It has been studied for its potential antiviral, anticancer, and antimicrobial properties. The compound's mechanism of action often involves interactions with specific molecular targets such as enzymes and receptors, which may lead to inhibition of disease-related pathways. For instance, it can modulate enzyme activity or interfere with cellular signaling processes, making it a promising candidate for therapeutic applications.