2%2C2%27-Benzene-1%2C4-Diylbis%281%2C1%2C1%2C3%2C3%2C3-Hexafluoropropan-2-Ol%29, this is the name of the chemical substance. Its main application field is quite wide.
In the field of materials science, this substance has significant uses. Due to its unique chemical structure, fluorine-containing groups give it special properties, which can be used to prepare high-performance fluoropolymer materials. Such polymer materials often have excellent chemical stability, strong corrosion resistance, and can resist the attack of many chemical substances, so they are widely used in chemical equipment protective coatings, special pipeline lining materials, etc. And its low surface energy characteristics make the prepared materials smooth and not easy to be contaminated with dirt. It has great potential in the research and development of self-cleaning materials, such as building exterior wall coatings, automotive paint surfaces, etc., which can reduce cleaning costs.
In the field of electronics industry, the substance also has important applications. Due to its good insulating properties and thermal stability, it can be used as an electronic packaging material to protect electronic components from external environment and ensure stable operation of electronic devices. When preparing high-performance liquid crystal display materials, it can adjust the arrangement and properties of liquid crystal molecules, improve display effects, such as enhancing contrast, viewing angle, etc., and promote the progress of display technology.
In the field of medicinal chemistry, with its special structure and properties, it can be used as a drug synthesis intermediate. Fluorinated organic compounds can often improve the pharmacokinetic properties in drugs, such as improving drug fat solubility, promoting drug transmembrane transport, enhancing drug bioavailability, and providing key raw materials for the development of new drugs.
To sum up, 2%2C2%27-Benzene-1%2C4-Diylbis%281%2C1%2C1%2C3%2C3%2C3-Hexafluoropropan-2-Ol%29 has important applications in many fields such as materials science, electronics industry, medical chemistry, etc., and has an extraordinary effect on technological development and product performance improvement in various fields.

2% 2C2% 27-benzene-1% 2C4-diylbis (1%2C1%2C1%2C3%2C3%2C3-hexafluoropropane-2-ol) This substance belongs to an organofluorine compound. Its physical properties are quite specific.
Looking at its state, at room temperature, it is often a colorless to slightly yellow viscous liquid, just like the dew droplets condensed on the petals in the morning, pure and clear. Its smell is weak and unique, like the faint sandalwood in the ancient temple in the deep mountains, not pungent, but unique.
When it comes to boiling point, because of the intermolecular force, the boiling point is quite high, and it needs to reach a higher temperature to boil, just like after a lot of grinding to show the extraordinary. The melting point also has its own characteristics. Under a specific low temperature environment, it can only condense into a solid state, just like the frozen lake surface in the cold winter and twelfth lunar month, which is quiet and calm.
Its solubility is also worth mentioning. In organic solvents, such as ethanol and acetone, it can be quite compatible, just like a fish getting water, which is free and happy; however, in water, it is insoluble, just like the incompatibility of oil and water, and the boundaries are clear.
Furthermore, the density is higher than that of common organic compounds. When held in the hand, you can feel its heavy texture, just like holding a carefully carved jade, which contains an inner thickness.
In addition, the surface tension of the substance is low, just like the water droplets rolling on the lotus leaf, which will not spread out easily, so it has unique advantages in some special application scenarios. Its refractive index also has certain characteristics. When light passes through, it will produce a unique refraction effect, which is like a mysterious veil on it.

2%2C2%27-Benzene-1%2C4-Diylbis%281%2C1%2C1%2C3%2C3%2C3-Hexafluoropropan-2-Ol%29 is an organic compound with unique chemical properties.
Its molecule contains a benzene ring and hexafluoroisopropanol structure. The benzene ring endows it with certain stability and conjugate system characteristics, so that the compound has a specific electron cloud distribution, which affects its reactivity and physical properties. In the structure of hexafluoroisopropanol, the fluorine atom has high electronegativity, and the strong electron-absorbing effect changes the polarity of the compound, which affects its solubility and is better in organic solvents.
This compound may have good thermal stability. Due to the introduction of fluorine atoms to enhance intermolecular forces and bond energy, the structure may be more stable at high temperatures. At the same time, it may have oxidation resistance and can resist oxidation to a certain extent.
Because it contains special functional groups, it has chemical reactivity. Hydroxy groups can participate in esterification, etherification and other reactions, and their structures can be modified by specific reactions to synthesize compounds with different functions, which may have applications in the field of organic synthesis. And because of its unique chemical structure and properties, it may have potential uses in materials science, medicinal chemistry and other fields, such as the preparation of special performance polymer materials, or as an intermediate in drug synthesis.

To prepare 2,2 '-benzene-1,4-diylbis (1,1,1,3,3,3-hexafluoropropane-2-ol), the method is as follows:
First take an appropriate amount of 1,4-bis (trifluoromethyl) benzene and place it in a clean and dry reactor. Then, at low temperature and fully stirred, slowly add a specific proportion of the solution containing the fluoroalkylation reagent dropwise. This process requires careful temperature control to ensure a smooth reaction. The fluoroalkylation reagent should be selected that can effectively introduce the hexafluoroisopropanol group.
After the dropwise addition is completed, gradually heat up to an appropriate temperature, maintain this temperature and continue to stir the reaction for a certain period of time, so that the reaction can be fully carried out. During this period, the reaction process needs to be closely monitored, and means such as chromatographic analysis can be used.
After the reaction is completed, the reaction mixture is cooled, and then extracted with an appropriate organic solvent to separate the target product. After the extraction of the organic phase, the solvent is removed by distillation or the like, and further purification methods such as column chromatography are used to obtain high-purity 2,2 '-benzene-1,4-diyl bis (1,1,1,3,3,3-hexafluoropropane-2-ol).
During the entire preparation process, the control of temperature, reagent ratio and reaction time is crucial, and the precise control of these three is the key to ensuring high yield and high purity of the product.

I don't know what the price of the "2%2C2%27-Benzene-1%2C4-Diylbis%281%2C1%2C1%2C3%2C3%2C3-Hexafluoropropan-2-Ol%29" you mentioned is in the market. What this name refers to must be a special chemical substance. Market prices often change for many reasons, such as supply and demand, the distance of origin, the quality of quality, the level of manufacturing costs, and the pricing of different merchants is also different.
If you want to know the exact price range of this product, you should go to the place where the chemical products are traded, the market for chemical raw materials, and ask the merchants who sell this product, or search on the Internet platform where the chemical products are traded. Only by looking at the prices marked by each seller can you get a more accurate price range. However, it is difficult for me to tell you what the price range is.