2-(tert-butylaminothio)benzothiazole

2-%28tert+-+butylaminothio%29benzothiazole, that is, 2 - (tert-butylaminothio) benzothiazole, which has a wide range of uses.
In the field of medicine, it can be used as a key intermediate in drug synthesis. Due to its unique chemical structure, it can interact with specific biomolecules, and then exhibit various biological activities such as antibacterial and anti-inflammatory. For example, some studies aim to use it to construct new antibacterial drugs. It is hoped that by combining it with key targets in bacteria, it will interfere with the normal physiological activities of bacteria, achieve the purpose of inhibiting or killing bacteria, and provide a new direction for solving the problem of drug-resistant bacteria.
In the field of pesticides, 2 - (tert-butylaminothio) benzothiazole also has important applications. It can be used to create new pesticides that act on pests or pathogens by virtue of their structural properties. For example, for some crop pests, it can interfere with the nervous system or physiological and metabolic processes of pests, achieve efficient control, and is relatively environmentally friendly, which is conducive to sustainable agricultural development.
In the field of materials science, it can be used as a synthetic raw material for functional materials. Because of its special electronic structure and reactivity, it can endow materials with unique properties. For example, the introduction of this structure in polymer materials may improve the stability and optical properties of materials, providing the possibility for the development of new high-performance materials.
In addition, in organic synthetic chemistry, 2 - (tert-butylamino thio) benzothiazole, as an important intermediate, can participate in the synthesis of many complex organic compounds. With its active thio and amino groups, it can build diverse molecular structures through various chemical reactions, expand the path and scope of organic synthesis, and help synthesize more organic compounds with special functions and value.

2-%28tert+-+butylaminothio%29benzothiazole is 2- (tert-butylaminothio) benzothiazole. The physical properties of this substance are particularly important, and it is related to its performance in various applications.
Looking at its morphology, it is mostly solid under normal conditions, and the quality is relatively stable. Its color is often white to light yellow powder or crystal, uniform and delicate in appearance, and the particle distribution is relatively regular. This characteristic makes it easy to handle and use in powder or crystal form.
When it comes to the melting point, it is about a specific temperature range. This value is a key indicator for identifying and purifying the substance. The appropriate melting point range shows the stability of its purity and molecular structure. Due to the intermolecular forces and orderly arrangement, when a certain temperature is reached, the molecule obtains enough energy to overcome the lattice binding and transform from solid to liquid.
Solubility is also an important physical property. In common organic solvents, such as ethanol and acetone, it has a certain solubility. This property makes it easy to mix and react with other compounds in the solution system to participate in the organic synthesis process. In water, the solubility is relatively limited. Due to the hydrophobic group in the molecular structure, the force between water molecules and water molecules is weak.
In terms of density, there are specific values. Although melting point and solubility are not often the focus of attention, it is also meaningful in some application scenarios where the relationship between mass and volume is accurately considered. Density reflects the degree of tight packing and relative mass of molecules, and affects the distribution and behavior of substances in mixtures.
The physical properties of 2- (tert-butylaminothio) benzothiazole, such as morphology, color, melting point, solubility, density, etc., are related and play their roles, laying the foundation for its application in chemical, pharmaceutical and other fields.

2-%28tert+-+butylaminothio%29benzothiazole is 2 - (tert-butylaminothio) benzothiazole, and its synthesis method is as follows:
The starting materials are usually 2 - chlorobenzothiazole and tert-butyl mercaptan. In the kettle, 2 - chlorobenzothiazole is first placed in a suitable organic solvent, such as acetonitrile or N, N - dimethylformamide, because it has good solubility to the reactants and is relatively stable under the reaction conditions. Then add an appropriate amount of base, such as potassium carbonate or sodium carbonate, which acts as an acid binding agent, which can move the reaction equilibrium in the direction of the product. < Br >
Subsequently, tert-butyl mercaptan is slowly added. This operation needs to be cautious because it is volatile and irritating. The temperature is controlled within a certain range, such as 50-80 ° C. This temperature range can ensure that the reaction rate is moderate, neither too fast to increase side reactions, nor too slow to make the reaction take too long. During the reaction process, thin-layer chromatography (TLC) or high-performance liquid chromatography (HPLC) can be used to monitor the degree of reaction. When the raw material point is basically eliminated, it is considered that the reaction is as expected.
After the reaction is completed, the reaction liquid is poured into water, and the difference in solubility between the product and the impurities in water and organic solvents is used to separate. Usually, the organic phase is extracted with an organic solvent such as ethyl acetate to collect the organic phase. The desiccant such as anhydrous sodium sulfate is used to remove water, and the organic solvent is removed by rotary evaporation to obtain the crude product.
The crude product needs to be further purified. Column chromatography is commonly used. Silica gel is selected as the stationary phase, and petroleum ether and ethyl acetate are prepared in an appropriate ratio to form a mobile phase. Through this operation, impurities can be effectively separated to obtain a pure 2- (tert-butylamino thioate) benzothiazole product.
There are other synthetic routes, such as using 2-mercaptobenzothiazole and tert-butyl halogenated hydrocarbons as raw materials under basic conditions. The mechanism is also nucleophilic substitution. However, the activity of halogenated hydrocarbons affects the reaction rate and yield. Pay attention to the selection of suitable halogenated hydrocarbons

I have not seen the exact price of 2 - (tert-butylaminothio) benzothiazole in the market. This compound may be used in the fields of medicine, pesticides, materials, etc., but its price often varies depending on quality, purity, supply and demand, purchase quantity and seller.
If you want to ask for the price, you can go to the chemical raw material trading platform and the website of the chemical reagent supplier. Common ones such as Sinopharm Group Chemical Reagent Co., Ltd., search banner reagent network, etc., may list the price of this product. You can also directly call chemical reagent distributors and chemical product suppliers to inquire about their latest quotations. < Br >
Or refer to the market price of similar compounds to infer the price of 2 - (tert-butylaminothio) benzothiazole. However, such inferences are only rough and inaccurate. If the synthesis is difficult, the raw materials are rare, and the demand is strong, the price may be high; if the synthesis is easy, the raw materials are abundant, and the market is oversupplied, the price may be low.

2-%28tert+-+butylaminothio%29benzothiazole, the Chinese name 2- (tert-butylaminothio) benzothiazole, has wonderful uses in many fields such as chemical industry and medicine, and listen to me one by one.
In the field of rubber additives, its role is crucial. This compound can be used as an accelerator, which can significantly speed up the vulcanization process of rubber. The vulcanization process is the interaction between rubber and crosslinking agents such as sulfur, which makes the rubber change from a linear structure to a network structure, which greatly improves the strength, elasticity and wear resistance of rubber. 2- (tert-butylaminothio) benzothiazole as an accelerator can reduce the vulcanization temperature, shorten the vulcanization time, not only improve production efficiency, but also save energy. At the same time, it can also optimize the physical properties of vulcanizates, so that rubber products can maintain good performance in different environments, such as car tires, rubber seals, etc., because of it, the quality is improved.
In the field of medicine, 2- (tert-butylamino thio) benzothiazole has also emerged. Studies have shown that it has certain biological activity and can become a key intermediate in drug synthesis. With the help of modification and modification of its structure, drugs with specific pharmacological effects can be developed. For example, some compounds synthesized based on it have shown antibacterial, anti-inflammatory and other effects, opening up new directions for the development of new drugs and promising to contribute to human health.
Furthermore, in the field of organic synthesis, it is also an extremely important raw material. Due to its unique molecular structure, it can participate in many organic reactions and construct more complex organic compounds. Chemists can use it to react with other reagents for substitution, addition, etc., to synthesize organic materials with special functions and structures, and play a key role in the frontier research of materials science.
To sum up, 2- (tert-butylaminothio) benzothiazole occupies an important position in the fields of rubber additives, medicine, organic synthesis, etc. With the continuous progress of science and technology, its application prospects will be broader.