Myristyl Malate Phosphonic Acid ●
TL;DR. It is primarily a skin-conditioning amphiphilic additive, with a fatty chain that supports softness and a polar acidic head group that can aid dispersion or emulsion behavior.
What does Myristyl Malate Phosphonic Acid do in a cosmetic formula?
It is primarily a skin-conditioning amphiphilic additive, with a fatty chain that supports softness and a polar acidic head group that can aid dispersion or emulsion behavior.
Is Myristyl Malate Phosphonic Acid clean?
From a clean-beauty perspective, it sits in a cautious middle ground because it is a specialty synthetic material with less public safety and allergen history than common fatty alcohols or organic acids. It is not a fragrance allergen or formaldehyde-releasing preservative, but the phosphorus-containing chemistry and limited transparency can create restricted-list friction.
Is Myristyl Malate Phosphonic Acid sustainable?
It is likely made from fatty alcohol feedstocks that may come from coconut, palm, or petrochemical sources, combined with malic-acid and phosphorus chemistry. The fatty portion may biodegrade, while organophosphonate functionality is generally more persistent and can add aquatic nutrient-load considerations.
Is Myristyl Malate Phosphonic Acid COSMOS-approved?
It is not a straightforward COSMOS-organic ingredient and would usually need supplier documentation to show any COSMOS-natural acceptance. Its Green Chemistry profile is mixed, with possible bio-based fatty inputs but a synthetic phosphorus-bearing structure that is less aligned with simple, readily biodegradable chemistry.
How does Myristyl Malate Phosphonic Acid work chemically?
This compound is an amphiphilic organophosphorus material built around a C14 alkyl segment, a it-derived hydroxy dicarboxylate motif, and an acidic phosphorus group. The molecule is expected to be more hydrolytically stable than many simple phosphate esters, and formulators need to manage pH, salt form, metal-ion interactions, and compatibility with cationic ingredients.
Last updated 2026-05-16