Damask Rose˚ and/or Gardenia˚ Enfleurage ●
TL;DR. This ingredient primarily functions as a natural fragrance material, adding a rich botanical scent profile to skin, hair, and body products. It may also contribute trace lipid-soluble aromatic compounds, but its main role is sensory rather than active treatment.
What does Damask Rose˚ and/or Gardenia˚ Enfleurage do in a cosmetic formula?
This ingredient primarily functions as a natural fragrance material, adding a rich botanical scent profile to skin, hair, and body products. It may also contribute trace lipid-soluble aromatic compounds, but its main role is sensory rather than active treatment.
Is Damask Rose˚ and/or Gardenia˚ Enfleurage clean?
From a clean beauty perspective, it is generally acceptable when properly disclosed and IFRA-compliant. The main caveat is that naturally occurring fragrance allergens can be present, so sensitive users may need more caution with leave-on formulas.
Is Damask Rose˚ and/or Gardenia˚ Enfleurage sustainable?
This material is botanical in origin and is typically biodegradable, with a lower-temperature extraction profile than many conventional fragrance processes. Sustainability depends on agricultural practices, flower yield, labor conditions, and the carrier or solvent system used.
Is Damask Rose˚ and/or Gardenia˚ Enfleurage COSMOS-approved?
It can align with COSMOS-natural and COSMOS-organic standards when made from approved botanical inputs and allowed physical or solvent processes, with organic status depending on certified feedstocks. It fits Green Chemistry best when sourced renewably, processed at low temperature, and made without persistent solvents or nonapproved carriers.
How does Damask Rose˚ and/or Gardenia˚ Enfleurage work chemically?
This material is a complex mixture of volatile terpenoids, alcohols, esters, phenylpropanoids, waxes, and other lipid-soluble aromatic molecules captured in a fatty medium or transferred into alcohol. It is usually used at fragrance-level additions, often well below 1%, and is best protected from heat, light, and oxidation during formulation and storage.
Last updated 2026-05-13