Citrus Aurantium Dulcis (Orange) Peel Powder
What is Citrus Aurantium Dulcis (Orange) Peel Powder?
Citrus Aurantium Dulcis (Orange) Peel Powder derives from the outer rind of the sweet orange fruit, Citrus aurantium dulcis, a citrus species native to regions like the Mediterranean and cultivated worldwide. The peels undergo drying and grinding into a fine powder suitable for cosmetic incorporation. Commonly featured in facial scrubs, dry shampoos, powders, and masks, it serves primarily as an absorbent material. In formulations, its porous structure draws in water and sebum, minimizing greasiness while imparting a drier, more comfortable skin touch. This physical functionality helps maintain product stability and freshness, particularly in powder-based or emulsion products prone to heaviness.
Roles in Formulation
This ingredient serves the following purposes in cosmetic formulations:
Benefits
Absorbs excess sebum to promote a less shiny appearance.
Contributes to a lighter, drier texture in powders and emulsions.
Supports mattifying effects without clogging pores.
Who It's For
A quick guide for who this ingredient may suit (and who should be cautious).
| Who May Benefit | Who Should Avoid |
|---|---|
| Individuals with oily or combination skin seeking oil control. | People with citrus allergies or sensitivities. |
| Users of powder cosmetics desiring improved wearability. | Skin prone to irritation from particulate ingredients. |
| Those preferring natural absorbents in gentle formulations. | Individuals with very dry or compromised skin barriers. |
Safety Notes
- Rated low hazard by hazard assessment databases.
- Typically safe in rinse-off and leave-on products at common use levels.
Frequently Asked Questions about Citrus Aurantium Dulcis (Orange) Peel Powder
What is orange peel powder used for in skincare?
It absorbs sebum and moisture to reduce shine and lighten product feel.
Is it safe for daily use?
Generally low hazard and suitable in typical cosmetic concentrations.
Does it clog pores?
Rated non-comedogenic, unlikely to contribute to pore blockage.