Clittoria Tereata Powder ●
TL;DR. This ingredient is used mainly as a botanical powder and natural colorant, adding blue-purple tones along with mild skin-conditioning antioxidant compounds. It can also provide visual identity in masks, cleansers, soaps, and dry powder formats.
What does Clittoria Tereata Powder do in a cosmetic formula?
This ingredient is used mainly as a botanical powder and natural colorant, adding blue-purple tones along with mild skin-conditioning antioxidant compounds. It can also provide visual identity in masks, cleansers, soaps, and dry powder formats.
Is Clittoria Tereata Powder clean?
From a clean-beauty perspective, this ingredient is generally well accepted when it is simply dried and milled plant material with no solvent residues or synthetic color additives. Sensitivity is possible with any botanical powder, especially in leave-on formulas or around the eye area, but it is not a typical restricted-list concern.
Is Clittoria Tereata Powder sustainable?
This material is plant-derived, renewable, and expected to be biodegradable. Sustainability depends mostly on agricultural practices, drying energy, pesticide controls, and traceability of the botanical supply chain.
Is Clittoria Tereata Powder COSMOS-approved?
It is generally compatible with COSMOS-natural and COSMOS-organic standards when produced through allowed physical processes such as drying and milling, and when the agricultural source meets the relevant certification requirements. It fits Green Chemistry principles through renewable sourcing and simple processing, though color consistency can vary by crop and extraction-free powders may bring more batch variability.
How does Clittoria Tereata Powder work chemically?
This compound is a finely milled botanical matrix containing anthocyanin-type pigments, polyphenols, carbohydrates, proteins, and minerals rather than a single purified molecule. Typical use is often around 0.1% to 5% depending on format and desired color, and the pigment profile is pH-sensitive, with color shifts and gradual fading possible under high heat, strong light, oxidizing systems, or very alkaline conditions.
Last updated 2026-05-15