Science
Mechanism of Action
The available data describes TRIMETHYLOLPROPANE DIALLYL ETHER's mechanism within industrial resin synthesis, where its allyl ether groups undergo oxidation. This process helps to overcome oxygen inhibition in free radical reactions, thereby improving drying effects, enhancing gloss, increasing surface hardness, and providing corrosion resistance and anti-yellowing properties in coatings and resins. There are no documented mechanisms of action specific to human skin in the research provided.
Research
Clinical Evidence
Low confidenceN/A
Transparency
Dusting Analysis
The Formula
Formulation
Stability
This ingredient is stable at room temperature and humidity. For optimal preservation, it should be stored in sealed containers in a cool, dry environment, away from oxidants and prolonged direct sunlight. Exposure to air can induce peroxide formation, making storage under an inert gas (e.g., nitrogen) blanket advisable after opening.
Conflicts
- Oxidizers
- Prolonged exposure to air (leads to peroxide formation)
Safety
Safety Profile
While classified by EPA Safer Choice as a 'Green circle' chemical (low concern based on experimental and modeled data), GHS classifications indicate TRIMETHYLOLPROPANE DIALLYL ETHER causes skin irritation (H315), serious eye irritation (H319), and may cause respiratory irritation (H335). Approximately 74.2% of reports specifically cite skin irritation. Material Safety Data Sheet (MSDS) guidelines recommend suitable ventilation and protective gloves to prevent direct skin contact. The oral toxicity (LD50) in rats is 6500 mg/kg.
Your Skin
Skin Compatibility
Our Assessment
Verdict
TRIMETHYLOLPROPANE DIALLYL ETHER lacks documented skincare benefits and presents a high risk of skin and eye irritation, rendering it unsuitable for precision skincare formulations.
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