Prunus Persica Nectarina Fruit Extract ●
TL;DR. This ingredient is used mainly as a skin-conditioning botanical extract, contributing water-soluble it sugars, organic acids, minerals, and polyphenols. It may also support mild humectant and antioxidant positioning in leave-on or rinse-off formulas.
What does Prunus Persica Nectarina Fruit Extract do in a cosmetic formula?
This ingredient is used mainly as a skin-conditioning botanical extract, contributing water-soluble it sugars, organic acids, minerals, and polyphenols. It may also support mild humectant and antioxidant positioning in leave-on or rinse-off formulas.
Is Prunus Persica Nectarina Fruit Extract clean?
From a clean-beauty perspective, this ingredient is generally low-friction and not a common restricted-list concern. As with many botanical extracts, tolerance depends on concentration, extraction solvent, preservative system, and residual fragrant trace compounds.
Is Prunus Persica Nectarina Fruit Extract sustainable?
This material is plant-derived and typically biodegradable, especially when supplied as a water, glycerin, or ethanol-based extract. Its sustainability profile depends mostly on agricultural practices, water use, and whether the source material comes from dedicated harvests or it-processing side streams.
Is Prunus Persica Nectarina Fruit Extract COSMOS-approved?
It can be permitted under COSMOS-natural and COSMOS-organic when the agricultural source, extraction solvent, and preservative system meet the standard. It aligns well with Green Chemistry when made from renewable plant material using water, glycerin, or ethanol extraction and minimal processing.
How does Prunus Persica Nectarina Fruit Extract work chemically?
This material is a complex extract containing soluble carbohydrates, organic acids such as malic and citric acid, amino acids, minerals, and phenolic compounds rather than a single active molecule. Typical use levels are often about 0.1% to 5%, and it is usually added during cool-down below roughly 40°C because color and phenolic components can shift with heat, oxygen, light, or metal ions.
Last updated 2026-05-15