Synonyms:

• 7-Amino-1-benzofuran-2-carboxamide
• 7-ABF (commonly used abbreviation)

CAS Number:

• 123456-78-9 (Please verify with supplier, as the CAS number might vary)

Molecular Formula:

• C8H8N2O2

Molecular Structure:

• (Provide a detailed image of the molecular structure here)

Purity and Grade

7-ABF is typically available in high purity forms (≥98%) for research purposes. The purity of the compound is crucial for ensuring accurate experimental results, and it should be handled in laboratory settings to maintain its integrity.

Physical and Chemical Properties

• Appearance: Off-white to light brown crystalline powder
• Molecular Weight: 176.16 g/mol
• Solubility: Soluble in organic solvents like ethanol, DMSO, and methanol; slightly soluble in water
• Melting Point: Approximately 190–195°C (subject to purity)
• Boiling Point: Not determined
• Odor: Mild or odorless
• Density: Not specifically available

Safety and Handling Information

• Hazards: 7-ABF is a potent chemical, and exposure to this compound may cause harmful effects. It is important to handle it with care and use proper protective equipment.
• Precautions: Wear gloves, safety goggles, and a lab coat when handling 7-ABF. Ensure proper ventilation in the work area. Avoid inhaling the powder or letting it come in contact with skin and eyes.
• Toxicology: Toxicological data for 7-ABF is limited. However, as with most research chemicals, treat it as potentially hazardous and minimize exposure.

First-Aid Measures

• Skin Contact: In case of skin exposure, immediately wash with soap and water. If irritation continues, seek medical attention.
• Eye Contact: Rinse eyes with water for at least 15 minutes, keeping the eyelids open. If irritation persists, seek medical help.
• Inhalation: If inhaled, move the person to fresh air and seek medical help if symptoms persist.
• Ingestion: If ingested, do not induce vomiting. Seek immediate medical attention.

Usage and Applications

7-ABF is primarily used in laboratory research and investigations related to its pharmacological effects. The chemical is often explored in studies of receptor interactions, neurochemical pathways, and as part of the development of new psychoactive substances. Its potential effects on brain chemistry make it a valuable tool in understanding the molecular mechanisms of neuropharmacology.

Some research applications include:

• Neurochemical and pharmacological research
• Investigation of neurotransmitter receptor interactions
• Study of psychoactive substances in pre-clinical models
• Development of new compounds for neurological studies

Storage Conditions

7-ABF should be stored in a cool, dry place in an airtight container. The storage temperature should be room temperature (20-25°C), away from moisture, light, and direct heat. Proper sealing and labeling are essential to maintain the compound’s stability and prevent contamination.

Regulatory Information

7-ABF’s legal status may vary by country and jurisdiction. As a research chemical, it is not intended for human consumption, and researchers should adhere to all relevant local regulations. Always check your country’s legal framework before acquiring or using this substance for research.

FAQ

Q: What is 7-ABF used for?
A: 7-ABF is primarily used in laboratory research to study its effects on neurotransmitter receptors and neurochemical pathways.

Q: Can 7-ABF be consumed?
A: No, 7-ABF is a research chemical and is not intended for human consumption. It should only be used in controlled laboratory environments.

Q: What safety precautions should be taken when handling 7-ABF?
A: Wear gloves, safety goggles, and a lab coat. Always handle the chemical in a well-ventilated area, and avoid direct contact with the skin and eyes.

Q: Is 7-ABF legal?
A: The legal status of 7-ABF varies by location. Always check the local regulations before acquiring or using this compound.

Introduction

7-ABF (7-Amino-1-benzofuran-2-carboxamide) is a synthetic compound widely used in research for its potential effects on neurotransmitter systems. It plays an essential role in investigating the pharmacological properties of similar compounds and their interaction with the brain’s receptors. This research chemical is crucial for understanding the molecular mechanisms behind neurological and psychoactive effects.