RGPU-95 (p-cl-Phenylpiracetam) – Powder, 1g
Data Sheet
| Application | Dopamine reuptake inhibitor |
| CAS | 213178-69-9 |
| Molar Mass | 252.69 g/mol |
| Chemical Formula | C12H13ClN2O2 |
| IUPAC Name | 2-[4-(4-chlorophenyl)-2-oxopyrrolidin-1-yl]acetamide |
| Synonyms | 2-(4-(4-Chlorophenyl)-2-oxopyrrolidin-1-yl)acetamide, 213178-69-9, 2-[4-(4-chlorophenyl)-2-oxopyrrolidin-1-yl]acetamide, BS-47390, F74623, 2-[4-(4-chlorophenyl)-2-oxopyrrolidin-1-yl]-acetamide |
| Storage | Store at room temperature, tightly sealed, away from heat, light and moisture. |
| Solubility | Soluble in water |
| Organoleptic Profile | White Powder |
| Physical Form | Solid |
| Specification | ≥98% |
| 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. |
Novel Racetam-Derived Nootropic for Cognitive and Neuroperformance Research
RGPU-95 (p-Cl-Phenylpiracetam) is a research-grade racetam-derived compound widely studied for its potential relevance in cognitive modulation, neuroperformance pathways, excitatory neurotransmission research, and advanced nootropic investigations. As a chlorinated derivative associated with Phenylpiracetam research, RGPU-95 has attracted scientific interest in models involving attention-associated signaling, neuronal resilience, and performance-oriented cognitive pathways.
Researchers have investigated RGPU-95 in studies involving glutamatergic signaling models, cognitive processing pathways, synaptic plasticity research, and stimulant-associated neuroactive mechanisms. Its investigational profile has made it a notable compound in advanced racetam science.
Supplied in powder format for laboratory and analytical research applications.
Common Research Areas
- Cognitive Modulation Research
- Neuroperformance and Alertness Studies
- Glutamatergic Pathway Investigation
- Synaptic Plasticity Models
- Advanced Racetam Research
How RGPU-95 Works
RGPU-95 has been studied for its potential interaction with pathways associated with excitatory neurotransmission, cognitive signaling, and neuroperformance mechanisms. Researchers have explored its relevance in models involving attentional processing, synaptic regulation, and neuronal resilience pathways.
Its neuroactive profile has made RGPU-95 a recurring subject in advanced nootropic research.
Research Overview
RGPU-95 has been investigated across a range of research models involving cognition, neurotransmission, and neuroperformance pathways.
Areas of scientific interest include:
- Cognitive signaling studies
- Alertness pathway investigations
- Glutamatergic research models
- Synaptic plasticity studies
- Advanced nootropic pathway research
Its broad research relevance continues to make it a notable compound in research science.
RGPU-95 vs Related Compounds
RGPU-95 vs Phenylpiracetam
RGPU-95 is often researched as a structural derivative with distinct investigational interest, while Phenylpiracetam remains the foundational parent compound in broader neuroperformance research.
RGPU-95 vs Phenylpiracetam Hydrazide
Phenylpiracetam Hydrazide has drawn interest as another modified derivative, whereas RGPU-95 is more strongly associated with chlorinated analogue investigations.
Frequently Asked Questions
What is RGPU-95 studied for?
It is commonly researched in cognitive modulation, alertness pathways, neuroperformance, and synaptic signaling models.
What does p-Cl-Phenylpiracetam mean?
It refers to a chlorinated Phenylpiracetam analogue investigated separately in research settings.
How should RGPU-95 powder be stored?
Research powders are generally stored in a cool, dry environment protected from heat and moisture.
