Advanced Stimulant Research: Monoamine Transporter Ligands & Phenethylamines

Our Stimulants category features an extensive selection of high-purity reagents designed for the study of the central nervous system (CNS). These compounds are primarily utilized to investigate the modulation of monoamine neurotransmitters—specifically Dopamine (DA), Norepinephrine (NE), and Serotonin (5-HT). This class is essential for researchers mapping the structural-activity relationships (SAR) of reuptake inhibitors and releasing agents.

Structural Classes & Synthetic Diversity

Eurochems provides high-fidelity reference standards across several distinct chemical scaffolds:

• Substituted Cathinones: Characterized by a ketone group at the beta-carbon of the phenethylamine core. Researchers study these analogs to understand how the beta-keto substitution alters blood-brain barrier permeability and transporter affinity compared to traditional amphetamines.

• Pyrovalerones: A specialized sub-class of cathinones featuring a pyrrolidine ring. These are potent subjects for studying highly selective dopamine transporter (DAT) inhibition.

• Fluorinated Phenethylamines: By introducing a fluorine atom at various positions (e.g., 2-FA, 3-FEA, 4-FMA), researchers can explore how halogenation impacts metabolic stability and binding duration.

Precision Analytical Standards

To ensure the reproducibility of your in vitro and in vivo models, our stimulants undergo rigorous quality control:

1. HPLC Purity Verification: Every batch is certified at 98%+ purity, ensuring the absence of unreacted precursors or synthesis byproducts.

2. Salt Form Optimization: Most stimulants are supplied as Hydrochloride (HCl) or Sulfate salts to ensure maximum aqueous solubility and stable shelf-life.

3. Forensic Profiling: Distinct crystalline structures and MS fragmentation patterns allow for seamless integration into forensic toxicological databases.

Note: All stimulant reagents are intended strictly for forensic, laboratory, and analytical research. They are not for human or animal consumption.