Uses of 3-FPM (3-Fluorophenmetrazine) – What You Need to Know!
If you’re curious about the uses of 3-FPM (3-Fluorophenmetrazine), you’re not alone. This compound has garnered attention for its various uses, especially in research settings. Understanding its applications, benefits, and potential risks can help you make informed decisions. Whether you’re a researcher, a student, or just someone interested in the science behind 3-FPM, this article will guide you through its primary uses and important considerations.
What is 3-FPM?
3-FPM, short for 3-Fluorophenmetrazine, is a synthetic stimulant and a fluorinated analog of phenmetrazine. It’s primarily used in research and not intended for human consumption.
Key Characteristics
- Chemical Structure: C11H14FNO
- Molecular Weight: 195.24 g/mol
- CAS Number: 1350768-28-3
Key Takeaways:
- 3-FPM is a research chemical.
- It has a unique molecular structure that differentiates it from phenmetrazine.
Chemical Properties of 3-FPM
Understanding the chemical properties of 3-FPM is crucial for researchers.
Chemical Properties Table
Property | Value |
---|---|
Molecular Formula | C11H14FNO |
Boiling Point | 247.5°C at 760 mmHg |
Flash Point | 103.4°C |
Key Takeaways:
- The molecular structure includes a fluorine atom, which is significant for its unique properties.
- It has a relatively high boiling point and flash point.
Uses in Scientific Research of 3-Fluorophenmetrazine
3-FPM is predominantly used in various research domains.
7 Uses of 3-FPM (3-Fluorophenmetrazine)
- Behavioral Studies: Examining the effects on behavior and cognition.
- Pharmacological Research: Understanding how it interacts with different receptors.
- Toxicology Studies: Studying its potential toxicity and safe handling practices.
- Cognitive Enhancement Studies: Investigating potential effects on memory and attention.
- Neurotransmitter Studies: Analyzing effects on dopamine and norepinephrine release.
- Drug Development: Assisting in the creation of novel pharmaceutical compounds.
- Comparative Analysis: Comparing with other stimulants to understand unique properties.
What is Fluorophenmetrazine (3-FPM)
Potential Benefits in Research
Research Benefits
- Cognitive Enhancement Studies:
- Pharmacological Research: .
- Neurotransmitter Studies:
Key Takeaways:
- Beneficial for advancing scientific knowledge.
- Can aid in the development of new therapeutic drugs.
Potential side effects of 3-FPM and other synthetic stimulant
- Increased heart rate: Monitoring cardiovascular health is essential.
- Insomnia: Disruption of sleep patterns.
- Anxiety: Possible increase in anxious feelings.
Risk mitigation
- Controlled environment: Conduct studies in regulated settings.
- Professional supervision: Ensure oversight by qualified professionals.
Key takeaway: Safety precautions are vital when using 3-FPM, with strict adherence to dosage guidelines and risk mitigation strategies.
Risks and Safety Concerns
3-FPM carries certain risks that need to be understood and mitigated.
Safety Considerations
- Handling: Use protective gear and work in a controlled environment.
- Storage: Store in a cool, dry place away from direct sunlight.
- Disposal: Follow proper chemical disposal regulations.
Risks Table
Risk | Mitigation |
---|---|
Toxicity | Use appropriate protective equipment |
Flammability | Store away from heat sources |
Environmental Impact | Dispose of correctly according to guidelines |
Key Takeaways:
- Handle with care using appropriate safety measures.
- Proper storage and disposal are essential to minimize risks.
Legal Status of 3-Fluorophenmetrazine
The legal status of 3-FPM varies by country and jurisdiction.
- United States: Not approved for human consumption, classified as a research chemical.
- Europe: Varies by country, with some classifying it as a controlled substance.
- Australia: Listed as a prohibited substance.
Key Takeaways:
- Check local regulations before acquiring or using 3-FPM.
- Legal restrictions highlight the importance of using it strictly for research purposes.
Comparative Analysis with Other Stimulants
Comparison Table
Feature | 3-FPM | Phenmetrazine | Amphetamine |
---|---|---|---|
Chemical Structure | Contains fluorine | Original form | Lacks fluorine |
Potency | Moderate | High | High |
Legality | Research chemical | Controlled substance | Controlled substance |
Key Takeaways:
- 3-FPM is distinct in its chemical structure due to the presence of fluorine.
- It has moderate potency compared to other stimulants.
How to Source 3-FPM for Research
Sourcing Guidelines
- Reputable Suppliers: Ensure suppliers are credible and certified.
- Quality Control: Look for suppliers who provide purity reports.
- Legal Compliance: Verify that purchasing complies with local regulations.
Key Takeaways:
- Choose suppliers with strong reputations and certifications.
- Ensure compliance with all legal requirements.
Storage and Handling Tips for 3-Fluorophenmetrazine
Proper storage and handling ensure the integrity and safety of 3-FPM.
Storage Tips
- Temperature: Store at room temperature, away from heat.
- Packaging: Keep in airtight containers.
- Labeling: Clearly label with chemical name and hazard information.
Handling Tips
- Protective Gear: Wear gloves, goggles, and lab coat.
- Ventilation: Work in a well-ventilated area.
Key Takeaways:
- Proper storage and handling are critical for safety.
- Clear labeling and protective measures prevent accidents.
Impact on Cognitive Studies
- Memory Enhancement: Research potential effects on memory.
- Attention Span: Study impacts on focus and concentration.
- Learning Processes: Explore how it affects learning capabilities.
Key Takeaways:
- Valuable in cognitive and neurological research.
- Potential to contribute to understanding brain functions.
Ethical Considerations
Ethics play a crucial role in the use of 3-FPM in research.
Ethical Guidelines
- Informed Consent: Ensure all participants are fully informed (if human studies are involved).
- Animal Testing: Follow strict ethical guidelines and regulations.
- Data Transparency: Report findings transparently and accurately.
Key Takeaways:
- Ethical considerations ensure responsible use.
- Transparency in research is paramount.
Buy 3-fpm online
1. What are the uses of 3-FPM?
3-FPM is used in scientific research to study its effects on behavior, cognition, and pharmacology.
2. Is 3-FPM legal?
The legality of 3-FPM varies by country. Check local regulations before acquiring or using it.
3. Can 3-FPM be used for human consumption?
No, 3-FPM is not approved for human consumption and is intended for research purposes only.
4. How should 3-FPM be stored?
Store 3-FPM in a cool, dry place, away from direct sunlight, in an airtight container.
5. What are the risks associated with 3FPM?
Risks include toxicity, flammability, and environmental impact. Proper handling and disposal are essential.
6. How does 3-FPM compare to other stimulants?
3-FPM has a unique chemical structure with moderate potency compared to other stimulants like amphetamine.
7. What are the ethical considerations in 3-FPM research?
Ethical considerations include informed consent, adherence to guidelines for animal testing, and data transparency.
8. Where can I buy 3-FPM?
Source 3-FPM from reputable suppliers who provide quality control and comply with legal regulations , Buy 3-fpm online
Understanding 3-FPM involves comprehending its chemical properties, potential benefits, and risks. While it holds significant promise in research, particularly in cognitive and pharmacological studies, it is essential to adhere to legal and ethical guidelines. Proper storage, handling, and sourcing from reputable suppliers further ensure safety and integrity in research. By staying informed and cautious, researchers can leverage the potential of 3-FPM effectively.
References
- Study on the pharmacological profile of 3-FPM
- Comparison of synthetic stimulants
- Research on 3-FPM’s cognitive effects
- Research Chemicals
- Legal status of 3-FPM
- Amphetamine
- Ethical considerations in research
- How 3-FPM Works
- Research Chemicals Denmark