Artemisia Pallens Flower/Leaf/Stem Oil

TL;DR. This ingredient is used primarily as a natural fragrance component, adding a sweet, herbaceous, fruity aroma to personal care formulas. It may also contribute minor masking or sensorial benefits in oil-based or emulsified products.

What does Artemisia Pallens Flower/Leaf/Stem Oil do in a cosmetic formula?

This ingredient is used primarily as a natural fragrance component, adding a sweet, herbaceous, fruity aroma to personal care formulas. It may also contribute minor masking or sensorial benefits in oil-based or emulsified products.

Is Artemisia Pallens Flower/Leaf/Stem Oil clean?

Clean-beauty frameworks generally allow this ingredient when it is disclosed as a natural fragrance material and meets IFRA and allergen-labeling requirements. Its main friction point is sensitization potential, especially as oxidation products and naturally occurring fragrance allergens increase over time.

Is Artemisia Pallens Flower/Leaf/Stem Oil sustainable?

This material is plant-derived and typically obtained by steam distillation of above-ground botanical parts. It is expected to be biodegradable, but sustainability depends on agricultural inputs, yield per hectare, and energy used during distillation.

Is Artemisia Pallens Flower/Leaf/Stem Oil COSMOS-approved?

It can be permitted under COSMOS-natural and COSMOS-organic when produced by allowed physical processes and supported by compliant sourcing documentation. From a Green Chemistry view, it scores well for renewable origin and solvent-free extraction, with caveats around energy use in distillation and fragrance allergen management.

How does Artemisia Pallens Flower/Leaf/Stem Oil work chemically?

This ingredient is a volatile essential oil made up of terpenoid ketones, alcohols, esters, and related aroma compounds, with composition shifting by crop, harvest timing, and distillation conditions. It is usually used at low fragrance levels, often well below 1% in finished products, and should be protected from heat, light, and air because oxidation can change odor and increase sensitization potential.

Last updated 2026-05-13