Phenibut HCl – Solution, 3000mg (100mg/mL)
Data Sheet
| Application | GABA receptor agonist |
| CAS | 3060-41-1 |
| Molar Mass | 215.68 g/mol |
| Chemical Formula | C10H14ClNO2 |
| IUPAC Name | 4-amino-3-phenylbutanoic acid;hydrochloride |
| Synonyms | citrocard, fenibut, fenibut citrate, noophen, phenibut, phenybut, phenyl-GABA, 3060-41-1, ARONIS24314, SCHEMBL3053795, Jsp000692, CTK7E2851, KS-00000AKN, BBC/470, 4-Amino-3-phenylbutyric acid, HCl, AS-13098, MCULE-9862731096, H319, A801762, J-002020 |
| Storage | Store at room temperature, tightly sealed, away from heat, light and moisture. |
| Solubility | Soluble in Water, PEG400, DMSO (Slightly). |
| Organoleptic Profile | Red Color Liquid |
| Physical Form | Solution in PEG400 |
| Specification | 100mg/mL ±10% |
| Terms | This material is sold for laboratory research use only. Terms of sale apply. Not for human consumption, nor medical, veterinary, or household uses. Please familiarize yourself with our Terms & Conditions prior to ordering. |
GABAergic Research Compound for Neuroregulatory and Cognitive Studies
Phenibut HCl is a research-grade small molecule widely studied for its potential relevance in GABAergic signaling pathways, neuroregulatory research, cognitive modulation models, and stress-response investigations. As a compound of interest in inhibitory neurotransmission science, Phenibut has attracted scientific attention in studies involving GABA receptor-associated mechanisms, neuronal signaling balance, and neurobehavioral pathway research.
Presented in solution format for laboratory research applications, Phenibut HCl has been investigated in models involving neurotransmitter modulation, synaptic signaling pathways, and cognitive resilience research. Its investigational profile has made it a notable compound in advanced neuroscience and nootropic science.
Supplied as a research-grade solution for analytical and laboratory applications.
Common Research Areas
- GABAergic Signaling Research
- Neuroregulatory Pathway Studies
- Cognitive Modulation Investigation
- Stress-Response Models
- Advanced Nootropic Research
How Phenibut Works
Phenibut has been studied for its potential interaction with pathways associated with GABAergic signaling, inhibitory neurotransmission, and neuronal regulation. Researchers have explored its relevance in models involving receptor-mediated mechanisms, synaptic signaling pathways, and stress-response biology.
Its neuroactive profile has made Phenibut a recurring subject in advanced research science.
Research Overview
Phenibut HCl has been investigated across a range of research models involving neurobiology, neurotransmitter signaling, and cognitive pathways.
Areas of scientific interest include:
- GABA pathway studies
- Neuroregulatory investigations
- Cognitive research models
- Stress-response mechanism studies
- Nootropic pathway research
Its broad research relevance continues to make it a notable compound in research science.
Phenibut vs Related Compounds
Phenibut HCl vs Phenibut FAA
Phenibut HCl is often researched as the hydrochloride salt form, while Phenibut FAA has drawn interest as the free amino acid variant.
Phenibut HCl vs Picamilon
Picamilon is commonly investigated in GABA-linked transport research, whereas Phenibut is more strongly associated with GABA receptor pathway studies.
Frequently Asked Questions
What is Phenibut HCl studied for?
It is commonly researched in GABAergic signaling, neuroregulation, cognitive modulation, and stress-response models.
What does HCl mean?
HCl refers to the hydrochloride salt form used in research formulations.
How should Phenibut HCl solution be stored?
Research solutions are generally stored in cool, dry conditions protected from heat and light according to laboratory handling protocols.
