Copper Palmitoyl Heptapeptide-14 ●
TL;DR. This ingredient functions as a skin-conditioning peptide active, used mainly in serums and creams aimed at visible firmness, texture, and wrinkle appearance. The it portion improves affinity for the skin’s lipid-rich surface compared with an unmodified peptide.
What does Copper Palmitoyl Heptapeptide-14 do in a cosmetic formula?
This ingredient functions as a skin-conditioning peptide active, used mainly in serums and creams aimed at visible firmness, texture, and wrinkle appearance. The it portion improves affinity for the skin’s lipid-rich surface compared with an unmodified peptide.
Is Copper Palmitoyl Heptapeptide-14 clean?
From a clean-beauty perspective, it is generally acceptable and not a common restricted-list ingredient, fragrance allergen, or formaldehyde-releasing preservative. The main caveat is that it is a highly processed synthetic active, so very strict natural-only standards may not accept it.
Is Copper Palmitoyl Heptapeptide-14 sustainable?
This material is typically made through peptide synthesis and fatty-acid modification, with possible palm-derived input for the lipid portion depending on supplier sourcing. Peptide and fatty-acid fragments are expected to break down more readily than persistent silicone or fluorinated materials, but manufacturing can involve specialty solvents and purification steps.
Is Copper Palmitoyl Heptapeptide-14 COSMOS-approved?
It is not a straightforward fit for COSMOS-organic or COSMOS-natural unless a supplier can document compliant origin and processing, which is uncommon for this type of synthetic lipopeptide active. Its Green Chemistry profile is mixed, with low use levels and biologically familiar building blocks, but multi-step synthesis and solvent-intensive purification reduce alignment.
How does Copper Palmitoyl Heptapeptide-14 work chemically?
The molecule is a it-coordinated lipopeptide, combining a short amino-acid chain with a C16 fatty acyl group to increase lipophilicity and skin substantivity. It is usually used through dilute supplier blends at very low active levels, and formulators typically keep peptide systems near mildly acidic to neutral pH while limiting high heat, strong oxidizers, and aggressive chelators.
Last updated 2026-05-14