Ethaneperoxoic acid, reaction products with aluminum isopropoxide and 1,5,10-trimethyl-1,5,9-cyclododecatriene (CAS 111850-00-1) — Citrus N/A Note Fragrance Ingredient

ByThe Good Scents
Citrus · Floral

Ethaneperoxoic acid, reaction products with aluminum isopropoxide and 1,5,10-trimethyl-1,5,9-cyclododecatriene

CAS 111850-00-1

Origin
synthetic
Note
N/A
IFRA
Professional use
Data as of: Apr 2026

What Is Ethaneperoxoic acid, reaction products with aluminum isopropoxide and 1,5,10-trimethyl-1,5,9-cyclododecatriene?

This synthetic compound is used in industrial fragrance manufacturing, primarily as a reactive intermediate rather than a direct fragrance ingredient. Consumers won’t encounter it directly, but may experience its effects in stabilized fragrance systems. Proper handling requires industrial safety protocols due to its reactive nature.

Safety Profile

PROFESSIONAL USE
Generally safeUse with awarenessProfessional use
Reactive chemical – not for direct consumer use
Requires specialized handling equipment
CAS
111850-00-1
Formula
Mixture
MW
Variable
Odor Family
Citrus · Floral
Layer 1 · Enthusiast

What Does Ethaneperoxoic acid, reaction products with aluminum isopropoxide and 1,5,10-trimethyl-1,5,9-cyclododecatriene Smell Like?

Not applicable as direct fragrance material. This reactive intermediate contributes to fragrance stability rather than imparting odor characteristics. In final formulations, its presence would be undetectable to the human nose, serving purely functional chemical purposes in the fragrance system architecture.

Layer 2

Chemistry, Properties & Perfumer Guide

The Chemistry

This compound is a reaction product of peracetic acid with aluminum isopropoxide and a specific cyclic hydrocarbon. It functions as a reactive intermediate in fragrance manufacturing processes, likely serving as a precursor or stabilizer. The aluminum coordination complex suggests potential catalytic applications in fragrance synthesis. Industrial handling requires inert atmosphere conditions due to the reactivity of both peroxide and aluminum alkoxide functionalities.

Physical & Chemical Properties

HandlingRequires inert atmosphere
ReactivityHighly reactive peroxide compound

Perfumer Guide

Note Position
N/A
Volatility
N/A
Blending
N/A
ApplicationTypical %RangeNotes
Industrial SynthesisProcess-dependentN/ANot a direct fragrance ingredient

Classic Accords

Tip: This material should only be handled by trained professionals in controlled industrial environments.

Alternatives & Comparisons

Layer 3

Safety, Regulatory & Sustainability

⚠ Regulatory Disclaimer

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

IFRA Status

Not directly regulated by IFRA as it is not a fragrance material but a process intermediate.

GHS Classification

H242 Heating may cause fire H290 May be corrosive to metals H314 Causes severe skin burns and eye damage

RIFM Assessment

Not assessed by RIFM as it is not a direct fragrance material.

Sustainability

Industrial production requires careful control of peroxide reactions. Environmental impact depends on manufacturing process controls for aluminum-containing byproducts. Proper disposal of reactive intermediates is critical for environmental protection.

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References

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

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