Sodium Acetyl sh-Oligopeptide-195 SP Lysine N6- ●
TL;DR. This ingredient functions as a skin-conditioning bioactive, typically used in serums and treatment products for visible firmness, smoothness, and wrinkle appearance claims. It is used for signaling-style cosmetic activity rather than as a structural emulsifier, solvent, or preservative.
What does Sodium Acetyl sh-Oligopeptide-195 SP Lysine N6- do in a cosmetic formula?
This ingredient functions as a skin-conditioning bioactive, typically used in serums and treatment products for visible firmness, smoothness, and wrinkle appearance claims. It is used for signaling-style cosmetic activity rather than as a structural emulsifier, solvent, or preservative.
Is Sodium Acetyl sh-Oligopeptide-195 SP Lysine N6- clean?
From a clean-beauty perspective, it is generally not a common restricted-list ingredient and is used at very low levels. The main review points are supplier transparency, residual processing aids, preservation of the raw material blend, and the small possibility of sensitivity with protein-derived actives.
Is Sodium Acetyl sh-Oligopeptide-195 SP Lysine N6- sustainable?
This material is typically made through biotechnology or synthetic peptide chemistry and is used in tiny concentrations, which limits formula-level material demand. It is expected to break down into smaller amino-acid fragments, but its overall footprint depends on fermentation inputs, purification, and solvent management.
Is Sodium Acetyl sh-Oligopeptide-195 SP Lysine N6- COSMOS-approved?
This ingredient is not a straightforward fit for COSMOS-organic or COSMOS-natural unless the supplier can document an allowed production route and the certifier accepts the specific raw material. Its Green Chemistry profile is mixed, with favorable low-use and degradability traits, but less clarity around chemical modification, purification, and processing inputs.
How does Sodium Acetyl sh-Oligopeptide-195 SP Lysine N6- work chemically?
The molecule is a short, modified amino-acid chain supplied in salt form, designed for water compatibility and cosmetic signaling activity on the skin surface. Finished formulas usually use actives of this type in ppm to low hundred-ppm ranges, often via supplier blends, and they are best formulated around skin-compatible pH with limited high heat, strong oxidizers, and protease exposure.
Last updated 2026-05-14