Haberlea Rhodopensis Leaf Extract

TL;DR. This ingredient is used mainly as a skin-conditioning botanical extract with antioxidant and soothing support. It is added to leave-on products to help protect formula and skin lipids from oxidative stress signals rather than to preserve the product by itself.

What does Haberlea Rhodopensis Leaf Extract do in a cosmetic formula?

This ingredient is used mainly as a skin-conditioning botanical extract with antioxidant and soothing support. It is added to leave-on products to help protect formula and skin lipids from oxidative stress signals rather than to preserve the product by itself.

Is Haberlea Rhodopensis Leaf Extract clean?

This ingredient is generally clean-standard friendly, with no common restricted-list issue and a low reported irritation profile at cosmetic use levels. As with many botanicals, quality depends on extraction solvent, preservative system, residual impurities, and batch standardization.

Is Haberlea Rhodopensis Leaf Extract sustainable?

This material is plant-derived and its naturally occurring organic constituents are expected to be biodegradable. The main sustainability question is sourcing, since the source plant has a limited native range, so cultivated or well-documented supply is preferable from a traceability standpoint.

Is Haberlea Rhodopensis Leaf Extract COSMOS-approved?

It can be permitted under COSMOS-natural and COSMOS-organic when made from eligible plant material using approved extraction solvents such as water, glycerin, ethanol, or oils. Its Green Chemistry fit is strongest when extraction is low-energy, solvent-conscious, and backed by responsible biomass sourcing.

How does Haberlea Rhodopensis Leaf Extract work chemically?

This ingredient is a complex botanical mixture that can contain polyphenols, flavonoids, phenolic acids, sugars, and stress-response metabolites, so activity is extract-dependent rather than defined by one molecule. It is typically used at low percentages in serums, creams, and masks, and should be protected from excessive heat, strong oxidizers, and poorly controlled microbial load during formulation.

Last updated 2026-05-13