Hexyl Cinnamal. FORMULA 301-3 ●
TL;DR. This ingredient is used as a fragrance material, mainly to give floral, jasmine-like scent notes and to help round out a perfume accord. It may also function as a masking agent for base odor in a it.
What does Hexyl Cinnamal. FORMULA 301-3 do in a cosmetic formula?
This ingredient is used as a fragrance material, mainly to give floral, jasmine-like scent notes and to help round out a perfume accord. It may also function as a masking agent for base odor in a it.
Is Hexyl Cinnamal. FORMULA 301-3 clean?
From a clean-beauty perspective, this ingredient has some friction because it is a recognized fragrance allergen and can trigger sensitization in susceptible users. It is subject to EU allergen disclosure thresholds and IFRA concentration guidance rather than being treated as an unrestricted scent material.
Is Hexyl Cinnamal. FORMULA 301-3 sustainable?
This material is usually produced synthetically from aroma-chemical feedstocks, often with petrochemical inputs, though trace natural occurrence exists in some essential oils. It is used at low levels and is expected to biodegrade, but its sourcing is not a strong renewable-feedstock story for most commercial grades.
Is Hexyl Cinnamal. FORMULA 301-3 COSMOS-approved?
This ingredient is not broadly aligned with COSMOS when supplied as a conventional synthetic fragrance component. It may fit only when the specific grade is part of a COSMOS-compliant natural fragrance system, while its Green Chemistry profile is mixed because of low use levels and biodegradability, balanced against nonrenewable feedstocks and allergen-management needs.
How does Hexyl Cinnamal. FORMULA 301-3 work chemically?
The molecule is an aromatic aldehyde with a conjugated side chain, which explains both its strong odor impact and its reactivity compared with many simple fragrance esters. It is typically used at low fragrance-compound levels, is managed under IFRA limits, and aldehyde stability can be affected by oxidation, strong alkalinity, and reactive amines in co-formulation.
Last updated 2026-05-15