6 APB Powder

Purchase 6-APB (Benzo Fury) at I Love Chems

At I Love Chems, we are dedicated to providing high-quality research chemicals to support your scientific endeavors. Our 6-APB, commonly known as Benzo Fury, is a premium compound ideal for advanced research applications.

Why Choose I Love Chems?

• Uncompromised Quality: Each batch of 6-APB undergoes rigorous testing to ensure exceptional purity and consistency, providing reliable results for your studies.
• Fast and Discreet Shipping: We understand the importance of timely delivery. Orders placed before 15:00 are dispatched the same day, with delivery times ranging from 1 to 8 business days across Europe. Our discreet packaging ensures your privacy is maintained.
• Exceptional Customer Support: Our knowledgeable team is available to assist with any inquiries, ensuring a seamless purchasing experience from start to finish.

What is 6-APB (Benzo Fury)?

6-APB (6-(2-aminopropyl)benzofuran), commonly known as Benzo Fury, is a synthetic entactogen belonging to the benzofuran and phenethylamine classes. It is structurally related to compounds like MDA and MDMA, characterized by a benzofuran ring fused to a phenethylamine backbone. 6-APB is distinguished by its unique chemical structure, contributing to its distinct pharmacological profile.

Chemical Properties:

• Chemical Formula: C11H13NO
• Molecular Weight: 175.23 g/mol
• IUPAC Name: 1-(1-Benzofuran-6-yl)propan-2-amine

6-APB is known for its empathogenic and stimulant effects, primarily acting as a serotonin and dopamine releaser. This mechanism enhances the release of these neurotransmitters in the central nervous system, leading to altered mood and perception.

Chemical Class and Properties of 6-APB

6-APB belongs to the benzofuran and phenethylamine chemical classes, a group of compounds recognized for their entactogenic and stimulant properties. This class includes substances like MDA and MDMA, which have been extensively studied for their effects on the central nervous system.

Structural Characteristics:

• The benzofuran structure comprises a benzene ring fused to a furan ring, which is attached to an ethylamine chain.
• This unique structure allows 6-APB to interact with monoamine transporters, leading to the release of serotonin and dopamine.

Researchers studying neuropharmacology and entactogenic substances often use 6-APB as a reference compound due to its unique properties and robust profile.

Effects of 6-APB in Research Settings

6-APB exhibits a range of effects, making it valuable for studying mood enhancement, sensory perception, and neurochemical interactions. Its empathogenic and stimulant properties provide researchers with insights into the modulation of neurotransmitter systems.

Observed Effects:

1. Euphoria and Empathy:
   • 6-APB induces feelings of euphoria and emotional closeness, useful in studying social behaviors and emotional processing.
2. Increased Energy and Stimulation:
   • Enhanced energy levels and alertness are commonly reported, offering insights into the compound’s stimulant properties.
3. Altered Sensory Perception:
   • Changes in visual and auditory perception, such as enhanced colors and sounds, provide a basis for studying sensory processing.

Application Areas:

• Mood Disorders: Investigating the potential therapeutic effects of entactogens on mood regulation.
• Neurotransmitter Dynamics: Exploring the release and reuptake mechanisms of serotonin and dopamine.
• Psychotherapy Research: Assessing the role of empathogenic compounds in enhancing therapeutic outcomes.

6-APB’s diverse effects make it a versatile tool for neuroscientific research, particularly in the areas of mood enhancement and sensory perception.

Dosage Guidelines for 6-APB

Accurate dosing is essential when working with 6-APB to ensure reliable experimental outcomes and maintain laboratory safety. This compound’s potency requires precise measurement and strict adherence to research protocols.

Recommended Dosage Ranges:

• Low Dose (30–75 mg):
  • Used for preliminary experiments to observe baseline empathogenic and stimulant effects.
• Moderate Dose (75–125 mg):
  • Suitable for standard studies on mood enhancement and sensory perception.
• High Dose (125+ mg):
  • Reserved for advanced research requiring more pronounced effects; caution is advised due to increased risk of adverse reactions.

Note: It is strongly discouraged to consume more than 200 mg of 6-APB per occasion.

Administration Methods:

1. Oral Administration:
   • Provides a gradual onset and longer duration, suitable for extended studies.
2. Intranasal Administration:
   • Offers quicker onset; however, it is considered rather painful by most and may cause mucosal irritation.

Important: Always use precision scales to measure 6-APB accurately. Maintain detailed records of dosages and observed effects to support reproducibility and safety in your research.

Safe Handling and Laboratory Use of 6-APB

Due to its potency and potential risks, 6-APB must be handled with extreme care in a controlled laboratory environment. Strict adherence to safety protocols ensures that experiments yield reliable results while minimizing potential hazards.

Laboratory Safety Measures

1. Personal Protective Equipment (PPE):
   • Always wear gloves, protective eyewear, and lab coats when handling 6-APB to avoid accidental skin or eye contact.
2. Ventilated Workspace:
   • Conduct all experiments in a well-ventilated area or under a fume hood to minimize inhalation risks.
3. Accurate Measurement Tools:
   • Use high-precision milligram scales to measure dosages accurately, reducing the risk of error or overdose.

Storage Guidelines

• Environment: Keep 6-APB in a cool, dry place away from direct sunlight and humidity.
• Sealed Containers: Store in airtight, labeled containers to maintain its stability and prevent cross-contamination.

Ethical Research Practices

6-APB must be used strictly for scientific research and never for recreational purposes. Researchers are responsible for ensuring compliance with all ethical and legal guidelines. This includes prohibiting any form of human or animal testing with the compound.

Legal Status of 6-APB

The legal classification of 6-APB varies significantly between regions, making it critical for researchers to confirm its status in their country before purchase or use.

Regional Legal Frameworks

• Europe:
  • In some countries, 6-APB is regulated under psychoactive substance laws or analog acts, requiring special permits for research purposes.
• United States:
  • While 6-APB is not explicitly listed as a controlled substance, it may be subject to the Federal Analogue Act if considered substantially similar to MDMA.
• Asia and Other Regions:
  • Legal status varies widely. Researchers must consult local regulations and obtain necessary documentation for research purposes.

Ensuring Compliance

1. Verify the legal status of 6-APB in your country or region before purchasing.
2. Acquire any required permits or approvals to conduct research.
3. Ensure detailed documentation of experiments to demonstrate ethical and legal compliance.

At I Love Chems, we emphasize the importance of following all laws and regulations regarding the purchase and use of 6-APB.

Hazard Warnings for 6-APB

6-APB is a potent compound that requires careful handling to avoid risks to health and safety. Understanding the potential hazards is essential for conducting safe and effective research.

Primary Risks

1. Toxicity:
   • High doses or accidental exposure can cause adverse reactions, including overstimulation, hypertension, or serotonin toxicity in biological models.
2. Environmental Risks:
   • Spillage or improper disposal of 6-APB can pose environmental hazards. Dispose of the compound following local hazardous waste guidelines.
3. Airborne Exposure:
   • Handling fine powders can lead to airborne particles. Ensure proper ventilation to avoid inhalation.

Mitigation Strategies

• Wear appropriate PPE, including masks and gloves, during handling.
• Handle 6-APB in a designated laboratory space to minimize the risk of contamination.
• Keep emergency contact information for poison control centers readily available in case of accidental exposure.

By adhering to these safety protocols, researchers can mitigate risks and focus on obtaining accurate and meaningful results from their experiments.