CITRUS AURANTIOM BERGAMIA PEEL OIL ●
TL;DR. This ingredient is used mainly as a fragrance and masking agent, adding a fresh volatile top note to formulas. It can also contribute mild aromatic skin-feel character, but it is not a preservative or active treatment ingredient.
What does CITRUS AURANTIOM BERGAMIA PEEL OIL do in a cosmetic formula?
This ingredient is used mainly as a fragrance and masking agent, adding a fresh volatile top note to formulas. It can also contribute mild aromatic skin-feel character, but it is not a preservative or active treatment ingredient.
Is CITRUS AURANTIOM BERGAMIA PEEL OIL clean?
It is accepted by many natural-leaning standards, but it carries fragrance-allergen and light-reactive furocoumarin considerations. Sensitive-skin positioning usually requires careful use-level control, allergen labeling, freshness control, and often a furocoumarin-reduced grade for leave-on products.
Is CITRUS AURANTIOM BERGAMIA PEEL OIL sustainable?
This material is plant-derived, usually obtained from fruit rind as a by-product of juice processing, and its volatile terpenes are generally biodegradable. Sustainability depends on agricultural inputs, yields, and concentration, since small amounts of finished material require substantial raw botanical mass.
Is CITRUS AURANTIOM BERGAMIA PEEL OIL COSMOS-approved?
It is permitted under COSMOS-natural and can be used in COSMOS-organic products when the grade and sourcing meet the standard’s rules. Its renewable origin, physical extraction route, and biodegradability fit Green Chemistry well, with the main caveats being allergen management and light-reactive trace constituents.
How does CITRUS AURANTIOM BERGAMIA PEEL OIL work chemically?
The molecule profile is a complex volatile mixture dominated by terpenes and esters such as limonene, linalyl acetate, linalool, gamma-terpinene, and beta-pinene, with possible trace furocoumarins. It is commonly used at low fragrance levels, often below 0.5% in leave-on products, and it should be protected from air, heat, and light because oxidized terpene components have higher sensitization potential.
Last updated 2026-05-14