Non-GMO Prunus Domestica Oil ●
TL;DR. This ingredient is an emollient and conditioning lipid used to soften skin and hair, reduce transepidermal water loss, and improve slip in creams, balms, oils, and hair treatments. It can also serve as a carrier for oil-soluble actives and fragrance components.
What does Non-GMO Prunus Domestica Oil do in a cosmetic formula?
This ingredient is an emollient and conditioning lipid used to soften skin and hair, reduce transepidermal water loss, and improve slip in creams, balms, oils, and hair treatments. It can also serve as a carrier for oil-soluble actives and fragrance components.
Is Non-GMO Prunus Domestica Oil clean?
This ingredient is generally well tolerated in clean-beauty frameworks, with no major restricted-list friction when it is cold-pressed or physically refined. The main quality considerations are freshness, peroxide value, residual allergens for highly sensitive users, and whether any refining aids are documented.
Is Non-GMO Prunus Domestica Oil sustainable?
This material is plant-derived, renewable, and often sourced from pressed kernels that can be a byproduct of food production. It is biodegradable, though sustainability depends on agricultural practices, traceability, and the energy used in refining and transport.
Is Non-GMO Prunus Domestica Oil COSMOS-approved?
It is permitted under COSMOS-natural, and it can fit COSMOS-organic when the agricultural source and processing meet certification rules. Its Green Chemistry profile is strong when obtained by mechanical pressing, using renewable feedstock, minimal solvents, and readily biodegradable lipid chemistry.
How does Non-GMO Prunus Domestica Oil work chemically?
This compound is mainly a triglyceride mixture rich in oleic acid and linoleic acid esters, with minor unsaponifiables such as tocopherols and phytosterols. Typical use ranges are about 1 to 20% in emulsions and hair products, and up to 100% in anhydrous oils, with oxidation managed through antioxidants, low-oxygen packaging, and protection from heat and light.
Last updated 2026-05-15