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O-PCE Crystal: Research Chemical Overview
O-PCE Crystal is a powerful research chemical from the arylcyclohexylamine class, which includes well-known compounds such as PCP (phencyclidine) and methoxetamine (MXE). As a NMDA receptor antagonist, O-PCE is primarily studied for its potential psychoactive, dissociative, and anesthetic effects. Researchers in neuropharmacology and psychiatry often explore its mechanisms of action, which may help develop new treatments for neurological conditions such as chronic pain, depression, or anxiety.
The O-PCE Crystal form is a pure, crystalline substance that can be used in controlled laboratory studies, where precise dosing is critical for research accuracy. Please note that this chemical is intended exclusively for research purposes and is not for human consumption.
Research Chemical Name and Synonyms
- Common Name: O-PCE
- Synonyms: O-Phenylcyclohexylamine, O-Phenylcyclohexyl-ethanone, O-PCE
- IUPAC Name: 2-(2-Phenylethylamino)-cyclohexanone
CAS Number
- CAS Number: 167798-79-7
Molecular Formula and Structure
- Molecular Formula: C15H21NO
- Molecular Weight: 231.34 g/mol
- Structure: O-PCE has a cyclohexanone ring with a phenyl group at the 2-position and an ethanone side chain. Its molecular structure is similar to other NMDA receptor antagonists, influencing its psychoactive and dissociative properties.
Purity and Grade
- Purity: O-PCE Crystal typically contains 98% or greater purity, providing high-quality material for research.
- Grade: Research Grade – This product is intended only for scientific and laboratory research. It is not for human consumption.
Physical and Chemical Properties
- Appearance: O-PCE Crystal is a white to off-white crystalline powder, available in highly purified form, with a fine texture that allows for easy measurement in experiments.
- Solubility: O-PCE is soluble in organic solvents such as acetone, ethanol, and DMSO, but is insoluble in water.
- Melting Point: The melting point of O-PCE ranges between 80–90°C.
- Stability: The compound is chemically stable when stored correctly, retaining its potency and structure over time.
Safety and Handling Information
- Personal Protective Equipment (PPE): When handling O-PCE Crystal, researchers should wear protective gloves, goggles, and a lab coat. Always work in a well-ventilated area or under a fume hood to avoid inhaling dust or vapors.
- Handling: Handle with care to avoid direct contact with skin, eyes, or inhalation. Use proper laboratory safety protocols.
- Storage: Store in an airtight container in a cool, dry, and dark place. Optimal storage conditions are 15–25°C to preserve its potency and stability.
- Hazards: O-PCE is an NMDA receptor antagonist, and exposure to even small amounts may cause psychoactive or anesthetic effects. Always follow safety guidelines to prevent unwanted exposure.
First-Aid Measures
- Skin Contact: If O-PCE comes into contact with the skin, wash the affected area thoroughly with soap and water. Seek medical attention if irritation persists.
- Eye Contact: In case of eye exposure, flush the eyes with water for at least 15 minutes. If irritation or redness continues, seek medical help immediately.
- Inhalation: If inhaled, move to fresh air immediately. Seek medical attention if you experience symptoms such as dizziness, nausea, or difficulty breathing.
- Ingestion: If ingested, do not induce vomiting. Rinse the mouth with water and seek immediate medical assistance.
Usage and Applications
O-PCE Crystal is primarily used for neuropharmacological research and in experiments designed to explore its effects on the central nervous system (CNS). Common research areas include:
- NMDA Receptor Antagonism: O-PCE is studied for its NMDA receptor antagonistic properties, which make it useful in understanding the molecular mechanisms involved in memory, learning, and neuroplasticity.
- Dissociative and Anesthetic Effects: O-PCE is a potent dissociative anesthetic, and it is used in research to explore potential applications in general anesthesia and pain management.
- Psychoactive Properties: Researchers study its hallucinogenic and psychedelic effects to better understand the neurochemical pathways associated with psychedelic states and their potential therapeutic benefits.
- Toxicology: O-PCE is also used to examine the toxicological effects of NMDA antagonists, aiding in the development of safer compounds for medical or clinical use.
Storage Conditions
- Temperature: Store O-PCE Crystal at a controlled room temperature (15–25°C).
- Container: Use an airtight container to protect it from moisture, light, and air exposure.
- Shelf Life: O-PCE Crystal maintains its stability and potency under appropriate storage conditions for extended periods.
Regulatory Information
- Research Use Only: O-PCE Crystal is intended solely for scientific research and laboratory studies. It is not for human consumption.
- Legal Status: The legal status of O-PCE may vary depending on the country or region. Researchers should ensure compliance with local regulations before purchasing or using O-PCE in their experiments.
FAQ
Q1: What is O-PCE Crystal used for in research?
O-PCE Crystal is used in neuropharmacological research to study its effects as an NMDA receptor antagonist, its dissociative, psychedelic, and anesthetic properties, and its potential therapeutic applications.
Q2: Can O-PCE Crystal be consumed by humans?
No, O-PCE Crystal is intended for research purposes only and is not suitable for human consumption.
Q3: How should O-PCE Crystal be stored?
Store O-PCE Crystal in an airtight container in a cool, dry, and dark place. Keep it at a temperature between 15°C and 25°C.
Q4: What are the main risks associated with handling O-PCE Crystal?
O-PCE is a potent NMDA receptor antagonist, and improper handling may cause psychoactive or anesthetic effects. Always follow laboratory safety protocols to minimize exposure.
Q5: What are the potential applications of O-PCE in research?
O-PCE is used in research to study NMDA receptor activity, dissociative effects, psychedelic experiences, anesthetic properties, and toxicity in animal models.