Overzicht
N-Ethylpentylone is een onderzoeksstimulant gebruikt in studies naar monoamine transporters (dopamine, noradrenaline, serotonine). Deze verbinding wordt bestudeerd voor zijn effecten op het centrale zenuwstelsel en als referentiestandaard in forensische toxicologie.
The history of N-Ethylpentylone is part of the broader narrative of stimulant research that includes amphetamine's synthesis in 1887 and the subsequent development of numerous derivatives. Scientists have long investigated how structural modifications to the phenethylamine or cathinone backbone affect interactions with monoamine transporters and receptors. N-Ethylpentylone represents one product of this systematic research. Research into substituted stimulants gained particular attention in the late 20th and early 21st centuries as chemists explored fluorinated, methylated, and otherwise modified analogs. N-Ethylpentylone emerged as a compound of interest for studying structure-activity relationships in dopamine and norepinephrine reuptake inhibition. The compound has been characterized extensively using chromatographic and spectroscopic methods. Contemporary research utilizing N-Ethylpentylone focuses on understanding monoamine transporter pharmacology, stimulant mechanisms of action, and developing analytical detection methods. The compound serves as an important reference standard in forensic toxicology laboratories and contributes to research on central nervous system stimulation and neurotransmitter dynamics.
N-Ethylpentylone acts primarily by inhibiting reuptake of monoamine neurotransmitters (dopamine, norepinephrine, serotonin), increasing their synaptic concentrations. This mechanism produces characteristic stimulant effects and makes it valuable for studying central nervous system activation.
N-Ethylpentylone holds significant value in scientific research due to its well-characterized properties and legal accessibility in several jurisdictions. This enables comprehensive pharmacological studies and analytical method development.
High-purity N-Ethylpentylone (≥98% by HPLC) serves as a crucial reference standard in research laboratories, quality control testing, and academic research settings. Its consistent quality makes it ideal for method development and validation.
Technische Specificaties
Waarom Onderzoekers Kiezen voor N-Ethylpentylone
🔬Monoamine Transporter Research
N-Ethylpentylone serves as a research tool for studying dopamine, norepinephrine, and serotonin transporter mechanisms. Its use as a reference standard enables analytical method validation in neuropharmacology laboratories.
🧬Neuropharmacology Studies
Researchers investigate N-Ethylpentylone to understand structure-activity relationships in stimulant compounds and their effects on monoaminergic systems. This supports broader research into central nervous system stimulation.
📊Forensic Applications
High-purity N-Ethylpentylone is essential for forensic toxicology laboratories developing detection methods for novel stimulants in biological samples and supporting quality control protocols.
Onderzoekstoepassingen
Belangrijke Disclaimer: Deze verbinding is uitsluitend bedoeld voor onderzoeks- en analytische doeleinden. Niet voor menselijke consumptie.
Chemische Eigenschappen
Oplosbaarheidsgegevens
Analytische Methoden
Externe Databases
Veiligheids- en Gevareninformatie
Hazard Statements (H):
- •H302: Harmful if swallowed
- •H315: Causes skin irritation
- •H319: Causes serious eye irritation
Precautionary Statements (P):
- •P261: Avoid breathing dust
- •P264: Wash hands thoroughly
- •P280: Wear protective equipment
Veelvoorkomende Effecten
Juridische Status per Land
Klik op een land voor gedetailleerde juridische informatie en verzendgegevens.
Veelgestelde Vragen
Q:What is N-Ethylpentylone used for in research?
N-Ethylpentylone is primarily used as an analytical reference standard in forensic toxicology, pharmacological research, quality control testing, and method development. It is NOT intended for human or veterinary use.
Q:How should N-Ethylpentylone be stored?
Store N-Ethylpentylone at -20°C in a dark, dry environment. Protect from light and moisture to maintain stability. When stored properly, research chemicals have a shelf life of approximately 2 years. Always use amber glass vials with proper sealing.
Q:Is N-Ethylpentylone legal in my country?
Legal status varies by jurisdiction. N-Ethylpentylone is legal for research purposes in several EU countries including Ireland, Italy as of 2026. Always verify current regulations in your specific location before ordering.
Q:What analytical methods are used to test N-Ethylpentylone purity?
High-Performance Liquid Chromatography with UV detection (HPLC-UV) is the primary method for purity analysis. Additional confirmation methods include Gas Chromatography-Mass Spectrometry (GC-MS), Liquid Chromatography-Mass Spectrometry (LC-MS/MS), and Nuclear Magnetic Resonance (NMR) spectroscopy.
Q:What is the minimum purity guaranteed for EuroChems N-Ethylpentylone?
All EuroChems N-Ethylpentylone products are guaranteed to be ≥98% pure as verified by HPLC analysis. Each batch includes a Certificate of Analysis (COA) confirming purity specifications.
Gerelateerd Onderzoek
Bronnen
Veiligheidswaarschuwing
Alleen voor onderzoeksdoeleinden. NIET VOOR MENSELIJKE CONSUMPTIE. Vereist Goede Laboratoriumhantering.