Isoquinoline 5 Sulphonyl
quinoline thiophene imidazole thiazole

Isoquinoline-5-Sulphonyl

Taiy Chemical

    Specifications

    HS Code

    228394

    Chemical Formula C9H7NO2S
    Molecular Weight 193.22
    Appearance Solid
    Solubility In Water Low solubility

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    General Information
    Where to Buy Isoquinoline-5-Sulphonyl in China?
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    Frequently Asked Questions

    As a leading Isoquinoline-5-Sulphonyl supplier, we deliver high-quality products across diverse grades to meet evolving needs, empowering global customers with safe, efficient, and compliant chemical solutions.

    What is the chemical structure of Isoquinoline-5-Sulphonyl?
    The chemical structure of isoquinoline-5-sulphonyl is an interesting topic in the field of organic chemistry. This structure is composed of isoquinoline as the parent nucleus, and isoquinoline itself is a nitrogen-containing heterocyclic aromatic hydrocarbon with unique aromatics and electron cloud distribution. In its structure, a benzene ring is fused with a pyridine ring, presenting a unique cyclic conjugate system.
    is connected to a sulfonyl group (-SO 2O -) at the 5th position of isoquinoline. The sulfonyl group is composed of a sulfur atom and two oxygen atoms connected by double bonds, which endows the compound with unique electronic effects and chemical activities. The solitary pair electrons of sulfur atoms can participate in the conjugation system, which affects the electron cloud density distribution of molecules, and then affects the physical and chemical properties of compounds.
    The structural characteristics of isoquinoline-5-sulfonyl groups make them have important applications in organic synthesis, pharmaceutical chemistry and other fields. In organic synthesis, it can be used as a key intermediate. With its unique activity check point, it can participate in various chemical reactions and construct more complex organic molecular structures. In the field of pharmaceutical chemistry, the unique electronic properties and spatial structure of this structure can interact with specific targets of biological macromolecules, demonstrating potential biological activity and providing an important structural basis for the development of new drugs. The uniqueness and complexity of its chemical structure open up broad prospects for research and application in related fields.
    What are the main uses of Isoquinoline-5-Sulphonyl?
    Isoquinoline-5-sulfonyl is useful in various fields. It is a key raw material for pharmaceuticals in the field of medicine. The unique chemical structure of isoquinoline-5-sulfonyl can specifically bind to human biological macromolecules, inhibit the activity of specific enzymes, or regulate cell signaling pathways. Therefore, it is often relied on when developing anti-tumor, anti-inflammatory, and antibacterial drugs.
    In the field of materials science, it is also indispensable. After reasonable modification and processing, it can be introduced into polymer materials to give the materials special properties. Such as improving the solubility and thermal stability of materials, or making materials have specific optical and electrical properties, it is widely used in electronic devices, optical materials, etc.
    In the process of organic synthesis, isoquinoline-5-sulfonyl is an important synthesis intermediate. Through various organic reactions, it can be converted into compounds with more complex and diverse structures, providing rich possibilities for organic synthesis chemists to explore new compounds and expand the library of organic compounds. It can be seen in the total synthesis of many complex natural products and the creation of new functional molecules, helping chemists to achieve many exquisite synthesis strategies and promoting the continuous development of organic synthesis chemistry.
    What are the physical properties of Isoquinoline-5-Sulphonyl?
    Isoquinoline-5-sulfonyl has a unique and wonderful nature. Its shape is often solid at room temperature, and its color is nearly white or slightly yellow. It is like a fine powder, uniform and delicate, and soft to the touch. Looking at its light, it has a faint glow. Although it is not dazzling, it also shows its purity.
    As for its degree of melting and boiling, the melting point is quite high, and it needs to be heated to a specific temperature before it begins to melt. This is due to intermolecular forces. Its boiling point is higher, and it cannot be vaporized unless it is strong heat.
    In terms of solubility, it is insoluble in water, and the polarity of water is not well matched with the molecular structure of isoquinoline-5-sulfonyl, so it is difficult to be compatible. However, in organic solvents, such as ethanol and acetone, it has considerable solubility. The polarity of ethanol is moderate, and it can be miscible with isoquinoline-5-sulfonyl molecules by van der Waals force, hydrogen bonding, etc.
    The stability of isoquinoline-5-sulfonyl is also considerable. At room temperature and pressure, and there is no strong oxidation, strong reduction agent, or strong acid and alkali environment, its structure can be maintained for a long time. In case of strong acid and alkali, the molecular structure may be changed or hydrolyzed, and its nature will gradually change. And if it is exposed to strong light and hot topics, it may also cause it to decompose and lose its original characteristics.
    Furthermore, its density is heavier than water, and it will sink to the bottom when placed in water. Its taste is odorless, and it has no special smell, which does not attract the attention of the sense of smell. These are the physical properties of isoquinoline-5-sulfonyl. Only then can it be used properly in the chemical, pharmaceutical and other industries to develop its capabilities.
    Isoquinoline-5-Sulphonyl What are the precautions during the synthesis process?
    When preparing isoquinoline-5-sulfonyl, many things need to be paid attention to. First and foremost, the purity of the raw material is crucial. If the raw material contains impurities, the reaction result will be deviated and the product will be impure. Like a good craftsman, you need to select good materials to get the best product.
    Furthermore, the reaction conditions cannot be ignored. Temperature, pH, reaction time, etc., will all affect the reaction process and product yield. If the temperature is too high or too low, the reaction rate may be abnormal, and even side reactions may be triggered. Just like the heat is used in cooking, if it is too strong, it will be coke, and if it is too weak, it will be raw.
    The choice of reaction solvent is also key. Different solvents have different solubility to the reactants, which in turn affects the reaction rate and selectivity. Choosing the right solvent is like setting a suitable stage for the reaction, so that the reaction can be carried out smoothly.
    The use of catalysts also needs to be cautious. An appropriate amount of catalyst can accelerate the reaction, but improper dosage may cause the reaction to go out of control. Its function is like a boat on a boat. If used properly, it will run smoothly without hindrance, and if used properly, it will be easy to hit the rocks.
    In addition, the operation process needs to follow the specifications. Accurate weighing of raw materials, accurate control of reaction conditions, and proper handling of reaction products are all related to the success or failure of preparation. If there is a slight difference, it will be like a thousand miles of embankment and collapse in the ant nest.
    The cleanliness and Unclean or humid equipment, or the introduction of impurities, interfere with the reaction. Like an unclean room, it is difficult to hold treasures.
    In the synthesis of isoquinoline-5-sulfonyl, every detail needs to be treated with caution to ensure a smooth reaction and an ideal product.
    What is the market outlook for Isoquinoline-5-Sulphonyl?
    Today there is a question, what is the market prospect of isoquinoline-5-sulfonyl. This isoquinoline-5-sulfonyl has its uses in various fields.
    In the field of medicine, it can be a key raw material for the synthesis of a variety of specific drugs. Due to its unique chemical structure, it can be combined with specific targets in the body, and has great potential for the development of new anti-cancer and anti-infection drugs. Today, the market demand for anti-cancer and anti-infection drugs is at its peak, and everyone is looking forward to the advent of new therapies and new drugs. Isoquinoline-5-sulfonyl has this potential and is expected to occupy a place in the pharmaceutical market. The future seems quite bright.
    As for the field of materials science, it may be used to prepare polymer materials with special properties. Such materials are in demand in high-end fields such as electronics and aerospace. The electronics industry seeks materials with more delicate components and better performance; the aerospace industry needs lightweight and high-strength materials. If isoquinoline-5-sulfonyl can help develop such materials, it will be able to meet the needs of the market and gain considerable development opportunities.
    However, it is also necessary to consider the challenges it faces. The process of synthesizing isoquinoline-5-sulfonyl may be complicated and costly. If the cost remains high, there will be many obstacles to marketing activities. And market competition is also a factor that cannot be ignored, and similar alternative products may have occupied part of the market share. To stand out in this situation, it is necessary to improve the synthesis process, reduce costs, increase output, and highlight its own unique advantages.
    In summary, although isoquinoline-5-sulfonyl faces challenges, it also has abundant opportunities in the fields of medicine and materials science. If it can make good use of its own characteristics and overcome technical problems, its market prospect may be booming.