Oligopeptide-3

TL;DR. This ingredient is used as a skin-conditioning peptide, usually positioned for firming, smoothing, and barrier-support claims at very low levels. In formulas, it functions as a bioactive signal-style additive rather than an emulsifier, surfactant, solvent, or preservative.

What does Oligopeptide-3 do in a cosmetic formula?

This ingredient is used as a skin-conditioning peptide, usually positioned for firming, smoothing, and barrier-support claims at very low levels. In formulas, it functions as a bioactive signal-style additive rather than an emulsifier, surfactant, solvent, or preservative.

Is Oligopeptide-3 clean?

Clean frameworks generally view this ingredient as low-irritation and not part of the usual restricted groups such as fragrance allergens, formaldehyde donors, or certain UV filters. The main caveats are limited transparency around exact sequence, synthesis route, and possible residual solvents or salts from manufacturing.

Is Oligopeptide-3 sustainable?

This material is typically made by peptide synthesis or controlled biotechnology rather than direct agricultural extraction. It is expected to break down into smaller peptides and amino acids, but conventional peptide manufacture can involve solvent-intensive purification and low-yield steps.

Is Oligopeptide-3 COSMOS-approved?

As a conventional synthetic bioactive, it is generally not permitted in COSMOS-organic or COSMOS-natural formulas unless a supplier can document an allowed natural-origin or biotechnology route under the standard. From a Green Chemistry view, biodegradability is a plus, while solvent use and protecting-group chemistry are the main tradeoffs.

How does Oligopeptide-3 work chemically?

This compound is a short-chain peptide made from amino-acid residues joined by amide bonds, so it is water-compatible and commonly supplied in a diluted aqueous or humectant-based solution. Use levels are supplier-dependent and often sit in the low ppm to low tenths-of-a-percent range for the active peptide, with mild pH, limited heat, and minimal strong oxidizers preferred to reduce hydrolysis or sequence degradation.

Last updated 2026-05-13