1- (trans-4-propylcyclohexyl) -3-fluorobenzene is widely used in industrial and scientific research.
In the field of liquid crystal materials, this compound is a key component. Liquid crystals play a major role in display technology, such as common liquid crystal displays (LCDs). 1- (trans-4-propylcyclohexyl) -3-fluorobenzene has unique molecular structures and physical properties, which can optimize the performance of liquid crystal materials. It can regulate the phase transition temperature of liquid crystals, so that liquid crystals can maintain a stable liquid crystal state over a wider temperature range, which is essential to ensure the normal operation of the display at different ambient temperatures. And it can improve the optical anisotropy of the liquid crystal, so that the display performance such as contrast and viewing angle of the display can be improved, and the image presented is clearer, more realistic, and more vivid.
In the field of organic synthesis, 1- (trans-4-propylcyclohexyl) -3-fluorobenzene is also an important intermediate. Organic synthesis aims to construct complex organic molecules. This compound can be combined with other organic reagents through various chemical reactions, such as substitution reactions, addition reactions, etc., to synthesize more complex and functional organic compounds. For example, chemists can use it to derive materials with special optoelectronic properties for use in fields such as organic Light Emitting Diodes (OLEDs), providing a raw material basis for the research and development of new optoelectronic devices.
In the research of materials science, it provides a direction for the exploration of new functional materials. Scientists hope to obtain new materials with special physical and chemical properties by structural modification and modification of 1- (trans-4-propylcyclohexyl) -3-fluorobenzene. Or develop materials with unique electrical and magnetic properties, showing application potential in electronic devices, information storage and other fields, promoting the continuous development of materials science and generating more innovative materials and technologies.

1 - (trans-4-propylcyclohexyl) - 3-fluorobenzene, this substance has unique physical properties. At room temperature, it is mostly liquid and has good fluidity. It is like smart water and can easily flow between containers. Looking at its color, it is pure and colorless, just like a clear spring, without any variegated colors, giving people a sense of purity.
Talking about the melting point, it is about a specific low temperature range. At this temperature, it will gradually change from liquid to solid, just like time solidifies, and the original smart state will be turned into a stable shape. The boiling point falls within a certain temperature range. When heated up to this point, it will suddenly transform from liquid to gaseous state and escape into the air, just like a sublimated spirit.
It has a lower density and is lighter than many common liquids. It seems to be able to float on water, showing a light state. In terms of solubility, it has a certain solubility in organic solvents, and can blend with some organic solvents and mix together. However, it has little solubility in water, making it difficult to blend like oil and water.
In addition, the substance also has a specific refractive index. When light passes through it, a unique refraction phenomenon occurs, which is like putting a layer of mystery on the light, showing different optical properties. Its dielectric constant also has its own characteristics, showing a specific electrical response in an electric field, which may be potentially useful in related electronic fields. These physical properties make it play a unique role in materials science and other fields, and become a key element in the construction of novel materials.

The synthesis of 1 - (trans-4 -propylcyclohexyl) - 3 -fluorobenzene is an important topic in organic synthetic chemistry. The synthesis route often relies on several classical organic reactions.
The electrophilic substitution reaction of aromatic hydrocarbons is the first. Fluorobenzene-containing benzene is used as the starting material, and specific substituents are introduced by the interaction of electrophilic reagents with benzene rings. In this process, careful selection of electrophilic reagents and regulation of reaction conditions, such as temperature, solvent and catalyst, are required to achieve the desired regional selectivity and reaction yield.
Furthermore, the introduction step of cyclohexyl is also critical. Halopropyl cyclohexane is often used as an intermediate, and metal-organic reagents, such as Grignard reagent or organolithium reagent, are used to react with fluorobenzene derivatives to form carbon-carbon bonds and achieve the connection between cyclohexyl and benzene rings. This reaction needs to be carried out under harsh conditions without water and oxygen to ensure the activity of the reagent and the smooth reaction.
In addition, stereochemical control cannot be ignored. To obtain the trans-4-propyl cyclohexyl structure, selective synthesis methods can be used, such as specific cyclic alkene hydrogenation reactions, and suitable catalysts and reaction conditions can be selected to promote the formation of trans isomers. In the
synthesis process, the product of each step needs to undergo precise analytical techniques, such as nuclear magnetic resonance, mass spectrometry and chromatography, to confirm the structure and purity. The connection between each reaction step also needs to be properly planned to improve the overall synthesis efficiency and reduce the occurrence of side reactions, and finally obtain a high purity of 1- (trans-4-propylcyclohexyl) -3-fluorobenzene.

The price range of 1 - (trans-4-propylcyclohexyl) - 3-fluorobenzene in the market is difficult to say exactly. The price of this product is easily influenced by many factors. Let me explain the reasons in detail.
The first to bear the brunt is the difference between the manufacturers. Different manufacturers have different production processes and cost control. Factories with exquisite craftsmanship and cost control may have an advantage in the price of this product; those with poor craftsmanship and higher cost will have higher prices.
Furthermore, the purity is also the key. The higher the purity, the more difficult it is to prepare, and the cost required also increases, so the price is often higher. The high purity of 1- (trans-4-propylcyclohexyl) -3-fluorobenzene is mostly used in areas with strict quality requirements, and its price is naturally high; while those with lower purity have limited application scope and relatively close price.
The state of market supply and demand also affects its price. If demand is strong and supply is insufficient, it is like rare things are expensive, and prices are bound to rise; on the contrary, if supply exceeds demand, manufacturers may reduce prices in order to reduce inventory.
In addition, the purchase quantity also has an impact. Bulk purchases, due to scale effects, manufacturers may give certain discounts, and the price is relatively low; if only a small amount is purchased, the unit price may be higher.
Looking at the past market, the price fluctuation of this product is quite obvious. There was a time when the production cost increased sharply due to the scarcity of a key raw material, and the price also soared; after the supply of raw materials returned to normal, the price fell again.
To sum up, in order to know the exact price range of 1- (trans-4-propylcyclohexyl) -3-fluorobenzene, it is necessary to carefully check the manufacturer, purity, supply and demand, and purchase quantity. When inquiring, it is advisable to compare different suppliers to obtain a more reasonable quotation.

1 - (trans-4-propylcyclohexyl) -3 -fluorobenzene, this is an organic compound, and many matters must be paid attention to during storage and transportation.
First of all, let's talk about storage. First, make sure that the storage environment is cool and well ventilated. Because the substance is prone to chemical reactions when heated, it can cause danger, so a cool environment can reduce its reactivity. Second, it should be stored separately from oxidants, acids, bases, etc., and must not be mixed. This compound is chemically active. Contact with the above substances may cause violent reactions, such as oxidation reactions, acid-base neutralization reactions, etc., or risk of ignition and release of harmful gases. Third, the storage place should be equipped with suitable materials to contain leaks. If a leak occurs, it can be collected in time to prevent pollution of the environment and cause safety accidents.
As for transportation, first of all, the transportation vehicle must have the corresponding qualifications, and the driver and escort personnel must be professionally trained to be familiar with the characteristics of the substance and emergency treatment methods. During transportation, the vehicle should run smoothly to avoid bumps, vibrations and sudden braking to prevent material leakage due to damaged packaging. Secondly, ensure that the packaging is complete and well sealed during transportation. If the packaging is damaged, it is more likely to leak during transportation vibration, polluting the environment and endangering the safety of transportation personnel. Furthermore, the transportation process should be kept away from fire and heat sources, because it is at risk of exposure to open flames, high temperatures or combustion and explosion. At the same time, the transportation route should try to avoid sensitive areas such as densely populated areas and water sources. In the event of leakage, the scope of harm can be reduced.
In short, 1- (trans-4-propylcyclohexyl) -3-fluorobenzene must strictly follow relevant regulations and operating procedures during storage and transportation to ensure the safety of personnel and the environment from pollution.