CYCLOPROPANEMETHANOL

TL;DR. This ingredient is used primarily as a fragrance component or fragrance-building material, with some secondary solvent behavior because it is a small alcohol. It helps create volatile scent character rather than providing skin-conditioning or preservation.

What does CYCLOPROPANEMETHANOL do in a cosmetic formula?

This ingredient is used primarily as a fragrance component or fragrance-building material, with some secondary solvent behavior because it is a small alcohol. It helps create volatile scent character rather than providing skin-conditioning or preservation.

Is CYCLOPROPANEMETHANOL clean?

From a clean-beauty perspective, this ingredient has limited cosmetic track record compared with common fragrance materials and may raise irritation questions because it is a small volatile alcohol. It is not a major listed fragrance allergen, but its use fits the broader clean-standard friction around undisclosed fragrance blends.

Is CYCLOPROPANEMETHANOL sustainable?

This material is typically made through synthetic chemical routes from petrochemical feedstocks, not from a renewable botanical supply chain. It is not expected to be highly bioaccumulative, but public cosmetic-specific biodegradation data are limited.

Is CYCLOPROPANEMETHANOL COSMOS-approved?

This ingredient is not aligned with COSMOS-natural or COSMOS-organic standards unless it appears only as part of an otherwise compliant natural fragrance system, which is not the usual case for a synthetic isolated molecule. Its Green Chemistry profile is mixed because it is small and likely degradable, but commonly fossil-derived and made through specialty synthesis.

How does CYCLOPROPANEMETHANOL work chemically?

The molecule is a low-molecular-weight primary alcohol with a strained three-membered carbon ring, which gives it high volatility and distinct odor behavior in fragrance work. It is generally used at low fragrance-level concentrations, and formulation attention centers on volatility, odor compatibility, and irritation potential rather than pH-driven instability.

Last updated 2026-05-13