Cinnamic Aldehyde
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Cinnamic Aldehyde (CAS 14371-10-9), also known as Cinnamal or trans-Cinnamaldehyde, is a synthetic aromatic aldehyde renowned for its intense, spicy-sweet scent profile. Emblematic of cinnamon bark, this molecule delivers warmth, richness, and depth in oriental, gourmand, and woody fragrance accords. Originally derived from Cinnamomum cassia bark oil, it is now almost exclusively synthesized for stability and purity. Even in trace amounts, Cinnamic Aldehyde exhibits exceptional olfactory power, contributing festive, ambery nuances to perfumery while functioning as a bridging material between spicy and balsamic notes.
Premium Synthetic Ingredient for Perfumery
Cinnamic Aldehyde (CAS 14371-10-9), also known as Cinnamal or trans-Cinnamaldehyde, is a synthetic aromatic aldehyde renowned for its intense, spicy-sweet scent profile. Emblematic of cinnamon bark, this molecule delivers warmth, richness, and depth in oriental, gourmand, and woody fragrance accords. Originally derived from Cinnamomum cassia bark oil, it is now almost exclusively synthesized for stability and purity. Even in trace amounts, Cinnamic Aldehyde exhibits exceptional olfactory power, contributing festive, ambery nuances to perfumery while functioning as a bridging material between spicy and balsamic notes.
Premium Synthetic Ingredient for Perfumery
Cinnamic Aldehyde (CAS 14371-10-9), also known as Cinnamal or trans-Cinnamaldehyde, is a synthetic aromatic aldehyde renowned for its intense, spicy-sweet scent profile. Emblematic of cinnamon bark, this molecule delivers warmth, richness, and depth in oriental, gourmand, and woody fragrance accords. Originally derived from Cinnamomum cassia bark oil, it is now almost exclusively synthesized for stability and purity. Even in trace amounts, Cinnamic Aldehyde exhibits exceptional olfactory power, contributing festive, ambery nuances to perfumery while functioning as a bridging material between spicy and balsamic notes.
Synthetic Ingredient Overview
🔎 Chemical name — trans-Cinnamaldehyde
🧪 Synonyms — Cinnamal, Cinnamaldehyde
🧬 Chemical Formula — C₉H₈O
📂 CAS N° — 14371-10-9
📘 FEMA — 2286
📖 EINECS — 240-261-3
⚖️ MW — 132.16 g/mol
📝 Odor type — Spicy
📈 Odor Strength — Strong and persistent
👃🏼 Odor Profile — Warm, spicy, sweet, cinnamon-like with faint balsamic sharpness
⚗️ Uses — Oriental, woody, and festive blends; trace-level modifier for ambery and gourmand accords
🧴 Appearance — Yellowish to pale oily liquid, sweet-spicy odor
What is Cinnamic Aldehyde?
Cinnamic Aldehyde is an α,β-unsaturated aromatic aldehyde, historically obtained from cinnamon bark oils, especially from Cinnamomum cassia where it can constitute up to 80% of the volatile oil fraction. Chemically defined as trans-3-phenyl-2-propenal, this compound embodies the characteristic warm-spicy intensity of natural cinnamon, but with higher purity and stability in its synthetic form.
It was first studied during the 19th century by chemists like Liebig and Wöhler, but its controlled synthesis was achieved through the Perkin reaction in 1868 — a landmark in organic chemistry. Industrial production now involves a more efficient aldol condensation of benzaldehyde with acetaldehyde under basic conditions.
Although its aroma is strongly associated with culinary spices, Cinnamal has long played a foundational role in perfumery, offering a rich and familiar warmth that is both festive and sophisticated.
Olfactory Profile and Perfumery Applications
Cinnamic Aldehyde is:
Highly diffusive and long-lasting, even in trace amounts
Top to mid-range in volatility, with excellent lift
Warm, balsamic-spicy with a sweet, resinous drydown
Its usage spans across:
Oriental accords (especially when paired with balsams, coumarin, or resinous vanillin)
Amber bases and spiced florals
Chypres and classic fougères for warmth and nuance
Gourmand fragrances where it enhances edible notes like clove, vanilla, honey, or tobacco
Seasonal or holiday compositions (e.g., Christmas spice, mulled wine, cinnamon-apple blends)
In perfumery, it is rarely used at high concentrations due to its intensity and sensitizing profile. However, even trace additions (<0.1%) are sufficient to dramatically shift the fragrance profile, making it a favorite for perfumers seeking to add richness without volume.
Synergistic pairings:
With Eugenol or Isoeugenol for clove and carnation effects
With Coumarin, Vanillin, or Benzoin for oriental-gourmand bases
With Cistus labdanum, Styrax, or Oakmoss in chypre contexts
Industrial and Technical Uses
Cinnamic Aldehyde is not only used in perfumery, but also:
As a flavoring agent (FEMA 2286), especially in cinnamon-flavored products such as gums, beverages, and baked goods
In cosmetics, soaps, and haircare for its warm spicy profile
As a precursor in organic synthesis for creating cinnamic acid derivatives and other aroma molecules
In pharmaceuticals and liniments for its historical use in topical preparations
Its low flash point and strong reactivity require careful formulation in emulsions and alcohol-based systems, where it can oxidize or polymerize over time if not stabilized.
Regulatory and Safety Overview
IFRA Status — ❗Restricted (Amendment 51)
Category 4 (Fine Fragrance): Max usage level 0.1%
Category 5 Leave-On: 0.05% or lower depending on subtype
EU Cosmetics Regulation (1223/2009)
Must be listed as “Cinnamal” on INCI when:
0.001% in leave-on
0.01% in rinse-off
CLP / GHS Hazards:
H317 — May cause allergic skin reaction
GHS07 pictogram (Irritant)
ECHA Toxicological Status:
Not classified as carcinogenic
Sensitizer (skin contact)
Avoid direct use in sensitive skin zones
Despite its restriction, it remains widely used within regulated limits, especially in traditional and oriental-style perfumery.
Environmental & Sustainability Aspects
While natural extraction from cinnamon bark is still practiced, the vast majority of cinnamic aldehyde is now produced synthetically, allowing for more sustainable sourcing:
Biodegradability — Readily biodegradable
Aquatic toxicity — Low persistence; not bioaccumulative
Renewable feedstocks — New processes explore bio-derived benzaldehyde routes
Natural origin option — Still available for use in all-natural or COSMOS-certified perfumes (with traceability)
From a sustainability perspective, synthetic cinnamal reduces pressure on cinnamon agriculture, although ethical sourcing is still a factor when using natural cinnamon oils.
Sources:
Arctander, S. (1960). Perfume and Flavor Chemicals (Aroma Chemicals). Montclair, NJ: Author.
Burdock, G. A. (2010). Fenaroli’s Handbook of Flavor Ingredients (6th ed.). CRC Press.
ECHA. (2024). Cinnamaldehyde – Substance Information. European Chemicals Agency. Retrieved from https://echa.europa.eu
IFRA. (2023). IFRA Standards – Amendment 51. International Fragrance Association. Retrieved from https://ifrafragrance.org
Lawless, J. (1995). The Illustrated Encyclopedia of Essential Oils. HarperElement.
Sell, C. S. (2019). The Chemistry of Fragrances (3rd ed.). Royal Society of Chemistry.
Smith, B., March, J., & Carey, F. A. (2006). March's Advanced Organic Chemistry: Reactions, Mechanisms, and Structure (6th ed.). Wiley-Interscience.
