2-FDCK Powder: An Overview of Properties, Effects and Safety
Buy 2-FDCK onlineAlso known as 2-fluorodeschloroketamine, it is a synthetic substance from the family of ketamine derivatives. In recent years, it has attracted attention mainly in research chemistry and leisure, as it has similar effects to Ketamine has a slightly different chemical structure.
2-fluorodeschloroketamine (2-FDCK)
Full name: 2-fluorodeschloroketamine
Chemical formula: C13H16FNO
Chemical formula: C13H11ClF1N
IUPAC name: (2S)-2-(2-fluorophenyl)-2-(methylamino)cyclohexan-1-one
CAS No: 1119800-48-0
Purity: ≥ 98 %
Chemical properties and appearance
Buying 2-FDCK online is usually in the form of a white to cream powder. It is water-soluble and can be absorbed orally, nasally or by other consumption methods. Chemically speaking, it is a dissociative agent that acts on the central nervous system, especially the NMDA receptors in the brain. This effect is responsible for the characteristic trance-like or dissociative effects.
Effect and dosage
The effect of 2-FDCK can vary greatly depending on dose, consumption method and individual factors such as body weight or tolerance. Typical effects include an altered sense of time and space, a feeling of detachment from the body and slight euphoric states. At higher doses, intense dissociative conditions or hallucinations may occur. The effect usually sets in within minutes and can last for several hours.
Buy 2-FDCK powder online
Since it is a potent substance, the dosage is crucial. Inexperienced individuals should be cautious and consider the risks of overdose or negative psychological effects.
Security and legal status
Consumption of 2-FDCK carries health risks. In addition to acute effects such as nausea, dizziness or increased heart rate, it can come with frequent intake to psychological dependence or memory problems. Safe handling, accurate dosage and responsible handling are therefore essential.
Legally, 2-FDCK is regulated or banned in many countries because it is classified as a Research Chemical. Before purchasing or consuming, it is essential to check the respective national laws in order to avoid legal consequences.
2-FDCK powder is a highly effective dissociative with potential for research and recreational use, but not without risks. Anyone interested in such substances should be fully informed, act responsibly and observe the legal framework. Awareness and caution are key to avoiding negative consequences and using the substance safely.
F. Zhang, Biochemist –
Useful for studying metabolite profiles. One of the most useful compounds we have worked with to model ketamine metabolism. Fluorine substitution appears to cause a slower degradation rate, which is useful for studying longer-term metabolic pathways in simulated environments.
D. Reynolds, Analytical Chemist –
A solid choice for analytical chemistry applications. High purity and clean spectra in both GC-MS and NMR results. The compound remains stable and readily storable under moderate temperature fluctuations. Ideal for laboratories conducting comparative studies with dissociative analogues.
M. Ocampo, chemistry research analyst –
Emerging favorite in receptor affinity studies.
We have analysed various arylcyclohexylamines, and 2-FDCK stands out for its balanced efficacy and receptor selectivity. It binds similarly to ketamine but offers a longer observation window. Great potential for future clinical analogue research.
L. Nguyen, PhD student –
Stable connection with interesting dissociative properties
L. Nguyen, PhD student in Pharmacology
Under laboratory conditions, 2-FDCK showed a stable profile and dissociative action similar to that of ketamine but with slightly delayed onset of action. This makes it useful for imaging longer-lasting receptor interactions. The solubilization is somewhat more difficult, but possible with suitable solvents.
K. Silva, Coordinator of the Behavioural Research Laboratory –
Promising for advanced neurochemical research. We used 2-FDCK in animal model experiments (in compliance with ethical research limits). Behavioural responses were significantly longer-lasting and more predictable than with ketamine. It holds great promise for controlled dissociation and behavioural neuroscience applications.
Dr. A. Thompson, neuroscientist –
Reliable ketamine analogue for in vitro research
We used 2-FDCK in controlled in vitro constellations to study NMDA receptor modulation. Compared to ketamine, the compound shows a slower metabolism, which is helpful in longer studies. It proves to be a reliable and valuable tool in our neuropharmacological experiments.