1,4 DMAA [Liquid]

Description

1,4-DMAA [Liquid]

1,4-DMAA (1,4-Dimethylamylamine) Liquid is a synthetic aliphatic amine compound primarily investigated in preclinical and laboratory research for its central nervous system stimulant properties and potential effects on energy metabolism, alertness, and cardiovascular parameters. Structurally related to other alkylamine compounds, 1,4-DMAA has been studied for its ability to influence catecholamine release, adrenergic signaling, and neurostimulatory pathways. This compound has garnered attention in experimental research for its stimulatory and performance-enhancing-like effects observed in controlled laboratory and animal models.

This product is supplied as a high-purity liquid formulation, optimized for research, analytical applications, and experimental formulation development. The liquid form enables precise dosing, consistent solubility, and accurate volumetric measurement, making it suitable for in-vitro and in-vivo experimental use.

Chemical Properties

PRODUCT TYPE: LIQUID

Product Name: 1,4-Dimethylamylamine (1,4-DMAA)

Chemical Class: Aliphatic amine / Sympathomimetic research compound

Molecular Formula: C₇H₁₇N

Molecular Weight: 115.22 g/mol

Purity: High-purity research-grade

Synonyms: 1,4-DMAA, Methylhexanamine, Geranamine

What is the Working Mechanism of 1,4-DMAA?

Preclinical studies suggest that 1,4-DMAA interacts with central and peripheral nervous system pathways, primarily influencing adrenergic signaling and catecholamine modulation. Laboratory and experimental findings highlight the following mechanisms:

Adrenergic Receptor Stimulation

1,4-DMAA may act as a sympathomimetic agent, stimulating alpha-adrenergic receptors and promoting peripheral vasoconstriction and elevated sympathetic activity. These effects can increase alertness and physiological arousal in experimental models.

Catecholamine Release

Experimental evidence suggests that 1,4-DMAA promotes the release of dopamine and norepinephrine, which may enhance focus, reaction time, and CNS stimulation in laboratory settings.

Central Nervous System Activation

The compound demonstrates stimulant-like CNS effects in preclinical models, modulating wakefulness, attention, and mental performance.

Metabolic and Energetic Effects

1,4-DMAA has been associated with enhanced energy expenditure and thermogenic signaling in experimental research, potentially influencing short-term metabolic activity in controlled laboratory studies.

Overall Neurochemical and Physiological Effects

Through combined adrenergic stimulation and neurotransmitter modulation, 1,4-DMAA exhibits stimulant-like properties, which in preclinical research have been linked to:

• Heightened alertness and wakefulness
• Increased mental focus and attention
• Elevated sympathetic nervous system activity
• Temporary enhancement of physical and cognitive performance
  

Potential Research Benefits of 1,4-DMAA Liquid

Based on available laboratory findings, 1,4-DMAA Liquid may be explored for:

• CNS stimulant research and alertness studies
• Sympathetic nervous system and adrenergic signaling investigations
• Energy metabolism and thermogenic pathway studies
• Comparative research with other aliphatic amines or stimulants
• Behavioral and cognitive performance models

Potential Side Effects in Experimental Settings

Observed effects in preclinical models may include:

• Overstimulation of CNS pathways
• Increased heart rate and blood pressure
• Temporary neural excitation
• Disruption of neurotransmitter balance under specific experimental conditions
• Reduced stability under improper storage

Why Choose RCDbio for 1,4-DMAA Liquid?

RCDbio supplies research-grade compounds, analytical standards, and laboratory-tested liquids with strict quality control and third-party purity verification. Our 1,4-DMAA Liquid is manufactured under controlled conditions to ensure batch consistency, chemical integrity, and reproducibility across experimental applications.

Disclaimer

1,4-DMAA Liquid is exclusively for laboratory research purposes. RCDbio products are not intended to diagnose, treat, cure, or prevent any disease. 

The Food and Drug Administration has not evaluated the statements on our website. Researchers must comply with all applicable local laws and regulations. By purchasing, you agree to our Terms and Conditions.
For queries, complaints, or support, please contact support@rcdbio.co.