Buddleja Officinalis Flower Extract ●
TL;DR. This ingredient is used mainly as a botanical antioxidant and soothing agent, helping support formulas aimed at visible redness, dullness, and photo-exposure stress. It is usually a supporting active rather than a structural emulsifier, preservative, or solvent.
What does Buddleja Officinalis Flower Extract do in a cosmetic formula?
This ingredient is used mainly as a botanical antioxidant and soothing agent, helping support formulas aimed at visible redness, dullness, and photo-exposure stress. It is usually a supporting active rather than a structural emulsifier, preservative, or solvent.
Is Buddleja Officinalis Flower Extract clean?
From a clean-beauty perspective, this ingredient is generally well accepted when the extract is made with compliant solvents and preserved appropriately. As with many plant extracts, the main considerations are trace sensitizers, batch variability, and the preservative system used in the supplied extract.
Is Buddleja Officinalis Flower Extract sustainable?
This material is plant-derived and typically biodegradable, with a lower persistence profile than synthetic film-formers or silicones. Sustainability depends on cultivation, harvesting controls, extraction solvent choice, and supplier documentation for traceability.
Is Buddleja Officinalis Flower Extract COSMOS-approved?
It can be permitted under COSMOS-natural and COSMOS-organic when sourced and processed according to the standard, especially with approved solvents such as water, glycerin, or ethanol. It fits Green Chemistry best when made from renewable feedstock through low-impact extraction and supplied without noncompliant preservatives or solvents.
How does Buddleja Officinalis Flower Extract work chemically?
This material is a complex extract rich in polyphenols, including phenylethanoid glycosides such as acteoside and related flavonoids, which explains its antioxidant positioning. It is typically used at low supplier-directed levels, often under 5%, and should be protected from excessive heat, light, and oxidation in water-based systems.
Last updated 2026-05-14