Flavours, like fragrances, can trigger vivid, emotional and positive memories through the five senses. And for those who aim to explore the exceptional, our aroma ingredients can help you master the food journey. Our products developed through a vertically integrated platform can also offer you consistency, stability, quality, safety to give your loyal customers repeatedly the same, delightful experience. Nostalgia, inspired!
adorr vanillin premium
Natural vanilla is one of the most labour-intensive foods on earth which not only makes it an expensive flavour but also a scarce resource. The introduction of nature-identical, food-safe vanilla such as vanillin earned wide acceptance by flavour manufacturers making it an indispensable raw material in the food additive industry.
At CFS, we take immense pride in offering you the world's favorite flavoring in its most authentic form. What sets adorrTM apart is its unwavering commitment to authenticity that’s achieved through a fully integrated manufacturing process. adorrTM guarantees consistency, quality, stability and complete traceability. Developed using the Catechol route, adorrTM vanillin premium is meticulously crafted with stringent quality control measures in place. This ensures that our "Made in India" brand meets international standards and specifications. This premium offering boasts a rich flavor profile that will undoubtedly elevate your culinary experiences. Trust us for a lifetime companionship.
adorr ethyl vanillin premium
Food has consistently served as an outstanding means of conveying joy, and adorrTM ethyl vanillin premium elevates this experience to a new level. This particular product provides an improved flavor encounter in contrast to ordinary vanillin, imparting a unique quality to your culinary endeavors. Its true brilliance emerges in applications such as chocolates, where it imparts an ideal aromatic accent. Manufactured through the Catechol pathway, adorrTM ethyl vanillin premium is widely preferred.
IUPAC Name :2-Methoxyphenol
Synonym: Pyrocatechol monomethyl ether 1-Hydroxy-2-methoxybenzene
CAS no.: 90-05-1
Molecular Formula: C7H8O2
Molecular Weight:124.14 g/mol
Guaiacol is a naturally occurring organic compound, known for its flavouring properties. It is clear colourless to slightly yellow coloured liquid (above 28°C) or crystalline solid mass with characteristic aromatic odour.
Guaiacol is manufactured in industry by methylation of pyrocatechol and mainly used as a precursor for synthesis of Vanillin. It is also used in synthesis of active pharmaceutical ingredients, flavouring agents and perfumery products.
Flavours & Fragrances:
Guaiacol is used in the synthesis of various flavours and fragrances such as Vanillin, Isovanillin, Eugenol, Isoeugenol, Zingerone, 4-Ethylguaiacol & 4-Vinylguaiacol etc.
Active Pharmaceutical Ingredients:
Guaiacol is used in the synthesis of expectorant such as Guaifenesin and Sulfoguaiacol. Drug intermediates obtained from Guaiacol are used in the synthesis of muscle relaxant and cardio vascular drugs such as Methacarbamol, Carvedilol and Ranolazine.
IUPAC Name: Benzene-1,2-diol
Synonym: Pyrocatechol 1,2-Benzenediol, 2-Hydroxyphenol, 1,2-Dihydroxybenzene, o-Benzenediol, o-Dihydroxybenzene
CAS no :120-80-9
EEC no :204-427-5
Molecular Formula: C6H6O2
Molecular Weight: 110.11g/mol
Catechol, also known as pyrocatechol or 1,2-dihydroxybenzene, is an organic compound with the molecular formula C6H4(OH)2. It is the ortho isomer of the three isomeric benzenediols. Catechol is available as flakes and 85% solution in solvents. It is produced industrially by the hydroxylation of phenol using hydrogen peroxide.
C6H5OH + H2O2 → C6H4(OH)2 + H2O
- Used largely in the production of pesticides
-Used as a precursor to fine chemicals such as perfumes and pharmaceuticals.
- Several flavours and fragrances are prepared starting from catechol.
- Piperonal, a flowery scent, is prepared from the methylene diether of catechol
- Vanillin, a flavour and fragrance component is synthetically produced using Catechol. CFS uses environment-friendly process to manufacture it. Vanillin produced through this route is safe for food applications.
- Used in production of ethylvanillin, a component of chocolate confectioneries.
- Used for replacing sandalwood oil
- Guaiacol is prepared by methylation of catechol
Chemical Name: 1,2-Dimethoxybenzene
Synonym: Pyrocatechol dimethyl ether ortho-Dimethoxybenzene
Cas no.: 91-16-7
Molecular Formula: C8H10O2
Molecular Weight:138.16 g/mol
Veratrole is a clear colourless liquid (above 22°C). Veratrole is manufactured in industry by methylation of pyrocatechol and used as a precursor for the synthesis of active pharmaceutical ingredients, flavouring agents and perfumery products.
Used as a building block for various chemical compounds, some of it are as follows:
Agrochemical: Used in the synthesis of fungicide Dimethomorph.
Flavours & Fragrances: Used in the synthesis of flavours and fragrances such as Veratraldehyde, 4-Ethyl veratrole and 4-Propenyl veratrole etc.
Active Pharmaceutical Ingredients: Intermediates prepared from Veratrole are used in the synthesis of various active pharmaceutical ingredients such as Verapamil, Mebevarine, Papevarine, Donepezil & Itopride etc.
Chemical Name: 2-Ethoxyphenol
Cas no.: 94-71-3
Molecular Formula: C8H10O2
Molecular Weight: 138.166 g/mol
Guethol is an aromatic ether in which one of the hydroxy groups has been alkylated to give the corresponding ethyl ether. It is a volatile organic compound and a member of phenols. It derives from a catechol and has a role as a flavouring agent.
IUPAC name: 4-tert-Butylbenzene-1,2-diol
CAS Number: 98-29-3
Molecular Formula: C10H12O2
Molecular Weight: 166.22 g/mol
4-Tert-butyIcatechoI is an organic chemical compound obtained by the butylation of Catechol using Isobutene gas. TBC is available in off-white to amber coloured crystalline solid or flakes. It is mainly used as a polymerization inhibitor or a stabilizer for polymerizable monomers.
TBC is available in different forms such as Flakes, 85% in Water, 85% in Methanol etc. The use of these in production, transportation or storage of monomers depends on its solubility in a particular monomer. The concentration of TBC in monomers varies from one another, in order to inhibit the polymerization.
TBC is harmful to human health, in contact with skin or if swallowed. It is corrosive and causes severe skin burns and eye damage. It may cause an allergic skin reaction. TBC may have a very toxic and long lasting effect to aquatic life.