Ethylhexylglycerin Pisum Sativum Peptide ●
TL;DR. This ingredient is typically used as a skin or hair conditioning active, adding small plant-derived protein fragments for feel, moisture perception, and light film-forming. It may also include a preservative-boosting component that helps stabilize the blend.
What does Ethylhexylglycerin Pisum Sativum Peptide do in a cosmetic formula?
This ingredient is typically used as a skin or hair conditioning active, adding small plant-derived protein fragments for feel, moisture perception, and light film-forming. It may also include a preservative-boosting component that helps stabilize the blend.
Is Ethylhexylglycerin Pisum Sativum Peptide clean?
From a clean beauty perspective, the plant-protein portion is generally well tolerated, while the preservative-boosting portion can bring mild eye or skin irritation potential at higher use levels. It is usually a yellow-tier ingredient because acceptance depends on purity, residual processing aids, and the standard being applied.
Is Ethylhexylglycerin Pisum Sativum Peptide sustainable?
This material is partly plant-derived from a legume protein source and partly made through synthetic alkyl-glyceryl chemistry, often from mixed petrochemical or oleochemical feedstocks. The protein-fragment portion should biodegrade readily, while the booster component is a weaker fit with fully renewable sourcing.
Is Ethylhexylglycerin Pisum Sativum Peptide COSMOS-approved?
The plant-protein portion can fit COSMOS when produced with permitted hydrolysis methods and processing aids, but the full blend may not automatically qualify because the preservative-boosting component has limited or conditional acceptance depending on certifier and composition. It is a partial Green Chemistry fit, with renewable protein feedstock as a positive and synthetic ether chemistry as the compromise.
How does Ethylhexylglycerin Pisum Sativum Peptide work chemically?
Chemically, this is a blend built around hydrolyzed plant protein fragments, meaning short amino-acid chains with amide bonds, plus an amphiphilic glyceryl ether that supports preservation. Such materials are commonly supplied as aqueous solutions and used below a few percent, with best stability in mildly acidic to neutral systems and with attention to heat exposure, electrolyte load, and microbial control.
Last updated 2026-05-13