(R)-1,2,3,4-TETRAHYDRO-3-ISOQUINOLINECARBOXYLIC ACID T-BUTYL ESTER

(R) -1,2,3,4-tetrahydro-3-butyl isopentenyl cinnamate, its chemical structure is as follows:
This compound contains a specific three-dimensional configuration, titled (R), indicating that it has a chiral center and the configuration is R-type. In its main chain structure, the 1,2,3,4-tetrahydro part refers to an unsaturated cyclic structure that is hydrogenated to form a saturated hydrogenated state at carbon atoms at positions 1, 2, 3, and 4.
Furthermore, the 3-isopentenyl moiety is a branched chain containing five carbon atoms, which is connected to the 3-position carbon atom of the main chain in the form of isopentenyl. The isopentenyl group has a double bond structure, which endows the compound with certain reactivity and special spatial arrangement.
And the butyl cinnamate moiety, the structure of cinnamic acid is connected with the structure of benzene ring and acrylic acid, showing a conjugated system, which endows the molecule with certain stability and special optical and chemical properties. Butyl ester refers to the esterification reaction between the carboxyl group of cinnamic acid and butanol to form an ester structure. The long-chain alkyl structure of butyl has a significant impact on the physical properties of molecules such as solubility and boiling point.
Overall, the chemical structure of (R) -1,2,3,4-tetrahydro-3-isopentenyl butyl cinnamate is composed of chiral hydrogenated ring, isopentenyl branched chain, and cinnamate structure. The interaction of each part endows the compound with unique chemical and physical properties, and may have important research value and application potential in organic synthesis, medicinal chemistry and other fields.

(R) -1,2,3,4-tetrahydro-3-butyl isopropylbenzoate is one of the organic compounds. Its physical properties are quite important and are related to many applications.
This compound is mostly in the form of a liquid at room temperature and pressure. Looking at its color, it is usually colorless and transparent, clear and pure, like the light of a mirror. Its smell may have a slight aromatic charm, elegant but not pungent, but the sensitivity of the smell, your mileage may vary.
When it comes to density, it is lighter than water, placed in water, floating on the water surface, if a light boat is in the blue wave. Its boiling point is determined by factors such as intermolecular forces, and it is in a specific temperature range, about [X] ° C. At this temperature, it changes from liquid to gaseous state, such as cloud rising.
Solubility is also an important property. In organic solvents, such as ethanol and ether, it can be well dissolved, just like salt in water, and the phase is seamless; in water, its solubility is poor. If the two are oil and water, they are distinct, because of the hydrophobic groups in its molecular structure.
In addition, the refractive index of the compound also has a specific value. When light passes through, it is refracted at a specific angle, just like the changing path of light in a prism. This property may be meaningful in optical research and applications.
The above physical properties are important considerations in many fields such as chemical engineering and medicine, and lay the foundation for their synthesis, separation, and application.

The synthesis method of (R) - 1,2,3,4 - tetrahydro - 3 - isopentenyl - benzyl benzoate, although the book "Tiangong Kaiwu" does not describe this product in detail, it can be compared to the methods of the general chemical industry recorded in the book, and deduced according to similar reasons.
To synthesize this product, one can imitate the method of extraction and purification in the "Salt" chapter. First take the natural raw materials containing the corresponding functional groups, such as alkenyl, benzyl and other structural materials, and enrich and purify them by physical means such as extraction and distillation, just like seawater to make salt, remove its impurities and keep its essence. This is the basis for raw material pretreatment. < Br >
Second, the technique of chemical transformation in "stone" can be borrowed. According to the principle of organic synthesis, the raw material is reacted under specific conditions. If a suitable catalyst is used to control its temperature and pressure, it will promote the fracture and recombination of chemical bonds between raw materials. Analogical burning stone becomes ash, calcium carbonate is calcined at high temperature, and the chemical bond is changed to obtain calcium oxide. In this synthesis, the structures of enyl and benzyl are reacted to the tetrahydrogen derivative of benzoic acid to form this target product.
Third, refer to the method of separation and purification in "killing green". The product is obtained, or contains unreacted raw materials and by-products, and needs to be separated by crystallization and chromatography, such as removing impurities from pulp to obtain pure paper during papermaking. The purity of the product is improved to the required standard.
In this way, according to the chemical theory contained in "Tiangong Kaiwu", the synthesis method of (R) -1,2,3,4-tetrahydro-3-isopentenyl-benzyl benzoate may be obtained. Although the ancient method is different from the current organic synthesis technology, the concept of purification, transformation and separation can be used for reference.

(R) -1,2,3,4-tetrahydro-3-isopentenyl cinnamolactone is a unique organic compound that has significant applications in many fields.
In the field of medicine, it has potential medicinal value. After research, it has been found that this compound may have positive effects on the treatment of specific diseases. Its structural properties endow it with the ability to interact with specific targets in organisms, or to regulate related physiological processes, and it is expected to become a key component in the development of new drugs. For some inflammatory-related diseases, (R) -1,2,3,4-tetrahydro-3-isopentenyl cinnamolactone may inhibit the release of inflammatory factors by virtue of its special chemical structure, thereby reducing the inflammatory response. < Br >
In the field of total synthesis of natural products, it is also an important research object. Due to its complex and unique chemical structure, it has attracted many chemists to explore its efficient synthesis method. Through the study of its total synthesis, it can not only improve the technical level of organic synthetic chemistry, but also provide the possibility to obtain a large number of this compound, thereby meeting the needs of medicine, chemical industry and other fields. In the synthesis process, chemists need to skillfully use various organic reactions to precisely construct its unique molecular framework and achieve effective control of its three-dimensional chemical structure.
In the field of fragrance industry, the special smell of this compound may make it a unique ingredient in fragrance formulations. Its unique aroma can add a unique flavor to the fragrance, which is used to prepare high-end perfumes, air fresheners and other products, giving the product a unique aroma characteristics and enhancing the market competitiveness of the product.
In summary, (R) -1,2,3,4-tetrahydro-3-isopentenyl cinnamolactone has shown broad application prospects in the fields of medicine, natural product synthesis and fragrance industry. In-depth research and development of it will bring new development opportunities to many industries.

Nowadays, there is (R) -1,2,3,4-tetrahydro-3-isopentenyl benzoate, and its market prospect is related to many aspects.
Looking at this compound, its unique structure or special properties can be used in the field of medicine, or it can become a potential drug precursor due to the combination of structure and biological activity check point. Today's pharmaceutical research and development requires Yin Sheng for compounds with novel structure and good activity. If this ester is proved to have pharmacological activity by research and has little toxic and side effects, pharmaceutical companies will flock to it, and the market potential is huge.
In the field of materials, because it contains specific functional groups, or can participate in polymerization reactions, special performance polymer materials are prepared. Nowadays, materials science is booming, and the demand for functional materials is increasing day by day. If this ester can give materials such as unique optical and electrical properties, or good mechanical properties and stability, it can also occupy a place in the market of electronic and optical materials.
However, its market expansion also faces challenges. If the synthesis process is complex, high cost, limited mass production, and the market scale is difficult to expand. And new compounds are put into the market, they need to be approved by strict regulations to ensure safety and environmental protection. If the approval process is long and the requirements are high, the enthusiasm of enterprises to promote will be frustrated.
But overall, (R) -1,2,3,4-tetrahydro-3-isopentenyl butyl benzoate has good opportunities in the fields of medicine and materials due to its unique structure. If it can overcome the problems of synthesis and regulation, the prospect is promising.