Withania Somnifera Root ●
TL;DR. This ingredient is used as a botanical skin-conditioning ingredient, often positioned for antioxidant and soothing support in creams, serums, and scalp products. It contributes plant-derived bioactive compounds rather than acting as a structural emulsifier, preservative, or surfactant.
What does Withania Somnifera Root do in a cosmetic formula?
This ingredient is used as a botanical skin-conditioning ingredient, often positioned for antioxidant and soothing support in creams, serums, and scalp products. It contributes plant-derived bioactive compounds rather than acting as a structural emulsifier, preservative, or surfactant.
Is Withania Somnifera Root clean?
From a clean-beauty perspective, this ingredient is generally accepted and not a common restricted-list concern when extracted with standard cosmetic-grade solvents. As with many botanicals, sensitivity is possible in reactive skin, especially at higher extract strengths or in complex herbal blends.
Is Withania Somnifera Root sustainable?
This material is renewable and agriculture-derived, with sustainability depending on cultivation practices, land use, and traceable sourcing. It is expected to be biodegradable, while extraction method and solvent recovery influence its overall environmental profile.
Is Withania Somnifera Root COSMOS-approved?
It is generally compatible with COSMOS-natural and COSMOS-organic standards when the plant material is sourced and processed using permitted methods, with organic status depending on certified cultivation. It fits Green Chemistry best when made with renewable feedstock, water, glycerin, ethanol, or other approved solvents and minimal processing.
How does Withania Somnifera Root work chemically?
This compound is a complex botanical matrix containing steroidal lactones, alkaloids, flavonoids, and polysaccharide fractions that vary by harvest, geography, and extraction method. Cosmetic extracts are commonly used around 0.1% to 2%, and formulators typically monitor color, odor, microbial quality, and compatibility with low-pH or highly oxidative systems.
Last updated 2026-05-16