Chemicals A-Z
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Turpentine Derived Scheme
Gum turpentine, wood turpentine, and sulphate turpentine are the three categories of turpentine, distinguished by their respective sources of raw materials. Sulphate turpentine is a byproduct of the pulp manufacturing process. This substance has a low level of alpha-pinene and a high concentration of 3-Carene. Gum turpentine is derived from pine resin through distillation. The isomers alpha-Pinene and beta-Pinene make up a large proportion of this substance, while Camphene, Dipentene, and Terpinolene are found in smaller quantities.
Extracted from pine trees, gum turpentine is an oil that ranges in color from colorless to pale yellow and contains a mixture of terpenes. Due to the existence of double bonds and rings, terpenes have the ability to undergo various reactions. The pinene structure in turpentine provides it with properties resembling those of other natural flavor and fragrance compounds. In contrast to petroleum-based compounds, this has a unique advantage.
The isomerization of turpentine results in intermediates like Camphene, an essential material in the synthetic scheme for a variety of fragrances. The substances known as Ocimene, Myrcene, and Geraniol, which are derived from the process of pyrolysis or hydrogenation, serve as the fundamental building blocks for a diverse range of flavor and fragrance formulations.
Pinonic acid and Pinic acid, both oxidation products of turpentine, possess versatile properties that make them suitable for a range of fine chemical uses, such as plasticizers, lubricants, and chemical additives. The execution of hydration reactions can be applied to formulate cough medicine and other related products.
To summarize, it can be concluded that turpentine, being an innate and renewable element, is exceedingly congruous with the contemporary inclination towards green, low-carbon, and sustainable advancement.
Borneol
CAS: 507-70-0
SPECS: 55%
Borneol synthetic is produced from alpha pinene.It is a mixture mainly composed of borneol and isoborneol.Synthetic Borneol is very cost effective comparing to natural one.
Estragole
CAS: 140-67-0
SPECS: 99%
Estragole is naturally found in turpentine, basil and tarragon oil. It appears colorless to pale yellow clear liquid with licorice and phenolic odor.Estragole is used in the preparation of fragrance.
Dipentene DHM
CAS: 138-86-3
SPECS: 138-86-3DHM
Dipentene DHM is the by-product of the production of gum turpentine derivatives.Synthetic dipentene is the by-product of the production of dihydromyrcene. It appears colorless liquid with lemon odor. …
Synthetic Camphor
CAS: 76-22-2
SPECS: BP
This product is applicable to the British Pharmacopoeia (BP) Standard.
Synthetic Camphor
CAS: 76-22-2
SPECS: DAB8
Natural camphor is found in many essential oils, especially camphor oil. It is a white crystalline powder with a unique camphor scent and a hint of mint odor.Synthetic Camphor is prepared by using alp…
Dipentene (Synthetic)
CAS: 138-86-3
SPECS: 96%
Dipentene synthetic is a by-product in the production of Terpineol or Champhene. Dipentene is mainly composed of terpene hydrocarbons. because of its refreshing pine, lime aroma and low cost, dipenten…
Camphene
CAS: 79-92-5
SPECS: 96%
Natural camphene is found in many plant essential oils, such as Turpentine oil, Cypress oil, Camphor oil, Citronella oil, etc.Camphene appears colorless to white crystalline solid with camphor-like sp…
Longifolene
CAS: 475-20-7
SPECS: 85%
Longifolene is an important tricyclic sesquiterpene in heavy turpentine oil, and its mass fraction can reach more than 65%.Beta-Caryophyllene is another important sesquiterpene. Longifolene is natural…
Ocimene
CAS: 29714-87-2
SPECS: 72%
Ocimenes are a group of isomeric hydrocarbons, the isomer of Myrcene.It includes α-Ocimene, cis-β Ocimene, and trans-β Ocimene. Ocimene is naturally found in many essential oils, such as basil oil, la…