\ Certified Organic Extracts: Borago Officinalis \

TL;DR. This ingredient is used mainly as a skin-conditioning botanical extract, often included for soothing, emollient, and antioxidant support in creams, serums, shampoos, and scalp products.

What does \ Certified Organic Extracts: Borago Officinalis \ do in a cosmetic formula?

This ingredient is used mainly as a skin-conditioning botanical extract, often included for soothing, emollient, and antioxidant support in creams, serums, shampoos, and scalp products.

Is \ Certified Organic Extracts: Borago Officinalis \ clean?

From a clean-beauty perspective, it is generally well accepted when quality-controlled for botanical impurities and microbial load. Like many plant extracts, it can be a sensitivity trigger for a small subset of users, but it is not a common restricted-list ingredient.

Is \ Certified Organic Extracts: Borago Officinalis \ sustainable?

This ingredient comes from a renewable plant source, and it sourcing supports lower synthetic pesticide input at the farming stage. It is expected to be biodegradable, although its overall footprint depends on cultivation, extraction solvent, and concentration in the final formula.

Is \ Certified Organic Extracts: Borago Officinalis \ COSMOS-approved?

It is permitted under COSMOS-natural and COSMOS-it frameworks when sourced and processed according to the standard, especially when extracted with approved solvents such as water, glycerin, ethanol, or plant oils. Its fit with Green Chemistry is strongest when the extraction uses renewable feedstocks, low-residue solvents, and minimal purification steps.

How does \ Certified Organic Extracts: Borago Officinalis \ work chemically?

This material is a complex botanical mixture that may contain phenolic compounds, flavonoids, mucilage polysaccharides, and, depending on plant part and solvent, lipid fractions rich in C18 fatty acids. Typical cosmetic use is often around 0.1% to 5%, and formulas should account for botanical color, odor, preservative demand, and oxidation sensitivity in oil-rich versions.

Last updated 2026-05-14