Backhousia Citriodora \ Lemon Myrtle\ Leaf Oil ●
TL;DR. It is primarily a fragrance ingredient, adding a crisp citrus-herbal scent to personal care products. It can also support deodorizing effects in rinse-off and leave-on formulas.
What does Backhousia Citriodora \ Lemon Myrtle\ Leaf Oil do in a cosmetic formula?
It is primarily a fragrance ingredient, adding a crisp citrus-herbal scent to personal care products. It can also support deodorizing effects in rinse-off and leave-on formulas.
Is Backhousia Citriodora \ Lemon Myrtle\ Leaf Oil clean?
This ingredient has clean-standard friction because it is a natural fragrance material with recognized allergen and sensitization potential, especially when oxidized or used above category limits. It is commonly allowed with concentration control, fragrance-allergen disclosure where required, and good freshness management.
Is Backhousia Citriodora \ Lemon Myrtle\ Leaf Oil sustainable?
It is plant-derived from leaves, usually through steam distillation, so the feedstock is renewable but yield and distillation energy matter. The volatile terpenoid fraction is generally biodegradable, while concentrated essential oils need responsible handling in production wastewater because of aquatic impact at high levels.
Is Backhousia Citriodora \ Lemon Myrtle\ Leaf Oil COSMOS-approved?
It is permitted under COSMOS-natural and can count toward COSMOS-organic content when sourced from certified organic plant material and produced by allowed physical processes. Its Green Chemistry profile is mixed, with renewable sourcing and biodegradability offset by agricultural inputs, low-yield extraction, and energy use during distillation.
How does Backhousia Citriodora \ Lemon Myrtle\ Leaf Oil work chemically?
This material is a complex essential-oil mixture dominated by acyclic monoterpene aldehydes, which give strong odor impact and higher reactivity than many terpene hydrocarbons. Typical leave-on use is often well below 1% and governed by IFRA category limits; it should be protected from heat, air, and light because oxidation increases sensitization risk.
Last updated 2026-05-14