Cyclopropanecarboxylic acid, 2-[1-(3,3-dimethylcyclohexyl)ethoxy]-2-methylpropyl ester (CAS 477218-42-1) — Woody Base Note Fragrance Ingredient

ByThe Good Scents
Woody · Musky

Cyclopropanecarboxylic acid, 2-[1-(3,3-dimethylcyclohexyl)ethoxy]-2-methylpropyl ester

CAS 477218-42-1

Origin
synthetic
Note
Base
IFRA
Use with awareness
Data as of: Apr 2026

What Is Cyclopropanecarboxylic acid, 2-[1-(3,3-dimethylcyclohexyl)ethoxy]-2-methylpropyl ester?

This synthetic fragrance ingredient is a specialized molecule used in modern perfumery to create unique scent profiles. It’s found in niche and avant-garde fragrances where innovative accords are desired. The compound contributes to complex woody-ambergris bases with exceptional longevity, making it valuable for perfumers seeking novel olfactory effects.

Safety Profile

USE WITH AWARENESS
Generally safeUse with awarenessProfessional use
Stable under normal use conditions
Limited safety data available
CAS
477218-42-1
Formula
Mixture
MW
Variable
Odor Family
Woody · Musky
Layer 1 · Enthusiast

What Does Cyclopropanecarboxylic acid, 2-[1-(3,3-dimethylcyclohexyl)ethoxy]-2-methylpropyl ester Smell Like?

The molecule presents a sophisticated woody-ambergris character with subtle marine undertones. Initially crisp and slightly metallic, it evolves into a warm, skin-like muskiness reminiscent of sun-warmed driftwood. The dry-down reveals an almost mineral quality – like smooth beach stones warmed by afternoon light – with exceptional tenacity that lingers for hours.

Scent Profile
Layer 2

2D Molecular Structure

2-[1-(3,3-Dimethylcyclohexyl)ethoxy]-2-methylpropyl cyclopropanecarboxylate

SMILES: CC(OC(C)(C)COC(=O)C1CC1)C1CCCC(C)(C)C1

Chemistry, Properties & Perfumer Guide

The Chemistry

This cyclopropane derivative belongs to the ester class, specifically designed for perfumery applications. The complex structure combines cyclohexyl and cyclopropyl moieties with ester functionality, creating a molecule with both volatility control and substantive properties. Synthesis typically involves multi-step organic reactions including esterification and ether formation under controlled conditions.

Physical & Chemical Properties

AppearanceClear colorless liquid
Molecular WeightNot available
SolubilityLikely alcohol-soluble

Perfumer Guide

Note Position
Base
Volatility
Very low (12+ hours)
Blending
Specialized
ApplicationTypical %RangeNotes
Fine Fragrance0.5-2%Up to 5%Base note modifier
Functional Fragrance0.1-0.5%Up to 1%Longevity enhancer

Classic Accords

Tip: Use sparingly in woody-ambergris bases to add mineralic complexity.

Alternatives & Comparisons

1
Ambroxan CAS 6790-58-5

For classic ambergris effects with better-characterized safety profile.

2
Timberol CAS 28219-61-6

When seeking woody notes without marine character.

Layer 3

Safety, Regulatory & Sustainability

⚠ Regulatory Disclaimer

General reference only. Consult current IFRA Standards Library before formulating.

IFRA Status

Not currently restricted by IFRA standards.

RIFM Assessment

No RIFM assessment currently available for this material.

Sustainability

As a synthetic material, production involves petrochemical feedstocks with standard industrial processes. The complex synthesis may require significant energy inputs. No known natural sources exist for this specific molecule.

Explore Cyclopropanecarboxylic acid, 2-[1-(3,3-dimethylcyclohexyl)ethoxy]-2-methylpropyl ester

Browse essential oils and aroma compounds.

Browse on iHerb →

Affiliate disclosure: we may earn a small commission at no extra cost to you.

References

    Data: PubChem (NIH), PubMed, RIFM, IFRA. Last reviewed: Apr 2026.

    Report a data error

    Physicochemical Properties

    DTXSID: DTXSID90889184

    Physical Properties

    Molecular Weight 296.451 g/mol🔬 EPA CompTox
    Density 0.964 g/cm^3🔬 EPA CTX
    Boiling Point 331 °C🔬 EPA CTX
    Melting Point 47.093 °C📊 OPERA
    Flash Point 158 °C🔬 EPA CTX
    Refractive Index 1.478 Dimensionless📊 OPERA
    Molar Volume 298.719 cm^3/mol📊 OPERA

    Partition & Solubility

    LogP (Octanol-Water) 5.063 Log10 unitless📊 OPERA
    LogD (pH 5.5) 5.063 Log10 unitless📊 OPERA
    LogD (pH 7.4) 5.063 Log10 unitless📊 OPERA
    LogKoa (Octanol-Air) 8.53 Log10 unitless📊 OPERA
    Water Solubility 0 mol/L🔬 EPA CTX
    Henry's Law Constant 0 atm-m3/mole📊 OPERA

    Transport Properties

    Vapor Pressure 0.011 mmHg🔬 EPA CTX
    Viscosity 11.695 cP📊 OPERA
    Surface Tension 31.959 dyn/cm📊 OPERA
    Thermal Conductivity 116.455 mW/(m*K)📊 OPERA

    Molecular Descriptors

    Topological Polar Surface Area 35.53 Ų💻 Computed
    H-Bond Donors 0 count💻 Computed
    H-Bond Acceptors 3 count💻 Computed
    Rotatable Bonds 6 count💻 Computed
    Aromatic Rings 0 count💻 Computed
    Molar Refractivity 84.57 cm^3/mol📊 OPERA
    Polarizability 33.526 Å^3📊 OPERA

    Data Sources:

    🔬 EPA Experimental data from U.S. EPA CompTox Chemicals Dashboard & CTX APIs. 📊 OPERA Predicted using EPA's OPERA QSAR models. 💻 Computed Calculated from SMILES using RDKit.

    Similar Posts