Products

Home Products 5,6,7,7Α-Tetrahydrothieno[3,2-C]Pyridin-2(4H)-One 4-Methylbenzenesulfonate

Sulfonic Acid Series Sulfamic Acid Series Guanidine Series

Sulfonic Acid Series

Sulfamic Acid Series

Guanidine Series

5,6,7,7Α-Tetrahydrothieno[3,2-C]Pyridin-2(4H)-One 4-Methylbenzenesulfonate

Specifications

HS Code	878741
Chemical Formula	C20H21NO5S2
Molecular Weight	421.52 g/mol
Physical State	Solid (usually)
Appearance	Typically white to off - white powder
Melting Point	Specific value would need experimental determination
Solubility In Water	Low solubility, likely sparingly soluble
Solubility In Organic Solvents	Soluble in some polar organic solvents like DMSO, DMF
Pka	Value depends on the acidic or basic functional groups, data may be scarce
Logp	Estimated value based on structure, likely positive indicating lipophilicity

As an accredited 5,6,7,7Α-Tetrahydrothieno[3,2-C]Pyridin-2(4H)-One 4-Methylbenzenesulfonate factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

Packing & Storage

Packing	50g of 5,6,7,7α -Tetrahydrothieno[3,2 - C]Pyridin - 2(4H) - One 4 - Methylbenzenesulfonate in sealed vial.
Storage	Store "5,6,7,7α - Tetrahydrothieno[3,2 - C]Pyridin - 2(4H)-One 4 - Methylbenzenesulfonate" in a cool, dry place away from direct sunlight. Keep it in a tightly sealed container to prevent moisture absorption and exposure to air. Store it separately from incompatible substances to avoid potential chemical reactions.
Shipping	The chemical "5,6,7,7α - Tetrahydrothieno[3,2 - C]Pyridin - 2(4H)-One 4 - Methylbenzenesulfonate" will be shipped in sealed, properly labeled containers. It must be transported following strict hazardous chemical shipping regulations to ensure safety.

Free Quote

Competitive 5,6,7,7Α-Tetrahydrothieno[3,2-C]Pyridin-2(4H)-One 4-Methylbenzenesulfonate prices that fit your budget—flexible terms and customized quotes for every order.

For samples, pricing, or more information, please call us at +8615371019725 or mail to sales7@alchemist-chem.com.

We will respond to you as soon as possible.

Tel: +8615371019725

Email: sales7@alchemist-chem.com

5,6,7,7Α-Tetrahydrothieno[3,2-C]Pyridin-2(4H)-One 4-Methylbenzenesulfonate

General Information

Historical Development

I am committed to the research of 5,6,7,7α-Tetrahydrothieno [3,2-C] Pyridin-2 (4H) - One 4-Methylbenzenesulfonate. The traces of this compound were rarely heard in the past, but the evolution of science and technology has begun.
At the beginning, the road of inquiry was full of thorns, and it was not easy to understand its nature and its use. However, my colleagues worked tirelessly, and after several years of research, they gradually gained something. The methods of the past may not be caught, but the techniques of the present are striving for improvement.
Looking at its development, it has been ignorant from the beginning to today, and the field of application has gradually expanded. This is all due to the diligence of scholars and the help of technology. Our generation should carry forward the ambitions of the former, carry forward the past and forge ahead, make this compound shine in more fields, be used by the world, and promote its development to new realms.

Product Overview

Wuyanyi chemical product, named 5,6,7,7α-Tetrahydrothieno [3,2-C] Pyridin-2 (4H) -One 4-Methylbenzenesulfonate. This product has a delicate structure and fuses the characteristics of thiophene and pyridine. The preparation process is quite complicated, and it needs to go through multiple steps of reaction and precisely control the conditions of each step, such as temperature and catalyst dosage, to obtain the ideal yield and purity.
This product has great potential in the field of organic synthesis, or can be used as a key intermediate to participate in the construction of a variety of complex compounds. Its unique structure gives special chemical properties, which may be useful in drug development, materials science, etc. However, in order to give full play to its effectiveness, it is necessary to further explore its reaction mechanism and physicochemical characteristics in order to expand its application scope and contribute to the development of related fields.

Physical & Chemical Properties

5,6,7,7α-tetrahydrothiopheno [3,2-C] pyridine-2 (4H) -ketone 4-methylbenzene sulfonate, this substance is related to physical properties and chemical properties, and is very important in my chemical research. Its physical properties, in terms of view, may have a specific color and morphology, or a crystalline state, and the texture and luster need to be carefully observed. Regarding the melting point, accurate determination can be made, and the critical temperature of its heating change can be known, providing key data for subsequent operations. In terms of solubility, it behaves differently in various solvents. Water and organic solvents dissolve to varying degrees, which is related to their dispersion and participation in different reaction systems.
In terms of its chemical properties, the chemical activity is significant. Specific functional groups in its structure may participate in a variety of chemical reactions, such as nucleophilic substitution and addition reactions. Meeting with specific reagents, depending on the reaction conditions, new compounds may be formed, which lays the foundation for the synthesis of novel chemical substances. Studying the physicochemical properties of this substance is of great significance for expanding chemical cognition and innovating synthetic paths.

Technical Specifications & Labeling

Today, there is a product called 5,6,7,7α-Tetrahydrothieno [3,2-C] Pyridin-2 (4H) -One 4-Methylbenzenesulfonate. In the process of our chemical research, its technical specifications and identification (product parameters) are the key.
If you want to make this product, you should first clarify its technical specifications. From the selection of raw materials, you must choose pure and excellent ones to ensure the purity of the beginning. The reaction conditions also need to be precisely controlled. Parameters such as temperature, pressure, and time are all related to the quality of the product. If the temperature is controlled in a certain range, the reaction will be orderly and avoid excessive or insufficient.
As for the identification (product parameters), the properties, purity, and proportion of ingredients of this product should be detailed. The properties, color and taste are clear at a glance; the purity is geometric, which is related to the quality; the proportion of ingredients is accurate, and the beauty of its composition can be known. In this way, this product can be used in the field of chemical industry, suitable for needs, and clear for use, adding bricks to the research and pursuit industry, and promoting its refinement.

Preparation Method

Now we want to prepare 5,6,7,7α-tetrahydrothiopheno [3,2-C] pyridine-2 (4H) -ketone 4-methylbenzenesulfonate. The method of preparation is related to the raw materials and production process, reaction steps and catalytic mechanism.
The raw materials are carefully selected to suit the needs of the reaction. The production process needs to follow a rigorous process, and each step is related to the purity and yield of the product. The reaction steps should be orderly or transformed in multiple steps, from the initial raw materials to the target product gradually. During the reaction conditions, such as temperature, pressure, catalyst dosage, etc., all need to be precisely controlled.
The catalytic mechanism is particularly critical, and suitable catalysts can greatly improve the reaction rate and selectivity. Or use specific metal catalysts to promote specific reactions between molecules under suitable conditions, so that each step of the reaction can be smoothly advanced, so as to efficiently prepare 5,6,7,7 α-tetrahydrothiopheno [3,2-C] pyridine-2 (4H) -ketone 4-methylbenzenesulfonate.

Chemical Reactions & Modifications

This chemical substance is called 5,6,7,7α-Tetrahydrothieno [3,2-C] Pyridin-2 (4H) -One 4-Methylbenzenesulfonate. Its chemical reaction and modification are crucial.
The chemical reaction of the husband is the basis for this substance. Through various reaction steps, the materials interact to obtain this compound. However, during the reaction process, the control of conditions is the key, and temperature, pressure, catalyst, etc. can all affect the rate and yield of the reaction.
As for modification, it is to optimize its performance. Or change its structure, or add other substances to make it have better characteristics, such as increased stability and good solubility. This is of great benefit in practical application.
We study the chemical reaction and modification of this substance, hoping to explore its optimal path, improve quality, and expand its use. In the field of chemistry, we have made achievements and are used by future generations.

Synonyms & Product Names

I try to study the monomer, called 5,6,7,7α-Tetrahydrothieno [3,2-C] Pyridin-2 (4H) -One 4-Methylbenzenesulfonate. The same name and trade name of this substance are worth exploring.
Its namesake may be obtained due to the similarity of structure and composition. Looking at its molecular structure, each atom is arranged in an orderly manner, or has something in common with other things, so it has an alias. As for the trade name, merchants give it a unique name to make it stand out in the city, or according to its characteristics and uses.
If the meaning of the same name and the trade name is discussed, the same name can help the academic community to communicate and make it clear to researchers that it is the same thing. Trade names are related to marketing activities, which can make consumers easy to recognize and remember, and increase the competitiveness of their products. This is an important symbol of chemicals in academic and commercial fields.

Safety & Operational Standards

Today, there is a chemical substance called 5,6,7,7α-Tetrahydrothieno [3,2-C] Pyridin-2 (4H) - One 4-Methylbenzenesulfonate. It is necessary to specify the safety and operation specifications of this substance.
On the safe side, this substance may have specific chemical properties. When contacting, be cautious. If the skin is accidentally touched, rinse with plenty of water immediately, and depending on the severity of the situation, seek medical treatment if necessary. If it enters the eye, rinse with running water quickly, without delay, and seek medical attention immediately. If you inhale it accidentally, leave the scene quickly and go to a fresh air place to keep breathing smoothly. If you feel unwell, you should also seek medical attention.
As for the operation specifications, the experimental site must be well ventilated to prevent the accumulation of harmful gases. When operating, you must wear appropriate protective equipment, such as gloves, goggles, etc., to protect your own safety. When using this object, follow the method of accurate measurement, and do not increase or decrease it at will. Store it properly after use, and keep it in a dry, cool place that is out of the reach of children and unrelated personnel. And throughout the operation, you must strictly follow the established procedures, and do not change it without authorization to prevent accidents.
In this way, strictly abide by safety and operation standards, so as to ensure the safety of personnel and the smooth experiment, and must not be slack in the slightest.

Application Area

In recent times, chemical refinement has resulted in the emergence of various new substances. Today, there are 5,6,7,7α-Tetrahydrothieno [3,2-C] Pyridin-2 (4H) -One 4-Methylbenzenesulfonate this substance. Its application field is worth exploring.
In the field of medicine, its unique chemical conformation may be used to contribute to the creation of new agents. After fine modulation, it may act on specific physiological targets and cure various diseases.
In the field of materials, its properties may endow materials with different properties. If the material has better stability, or changes the chemical activity to be suitable for special environments, it will open up new avenues for material innovation.
Although chemistry is amazing and changing with each passing day, the application and exploration of this substance is like a new voyage, and the road ahead is long. It is expected to bring innovation and breakthroughs to many fields. We should devote ourselves to it and wait for it to shine.

Research & Development

Research and development of 5,6,7,7α-tetrahydrothiopheno [3,2-C] pyridine-2 (4H) -ketone 4-methylbenzene sulfonate
Fu 5,6,7,7α-tetrahydrothiopheno [3,2-C] pyridine-2 (4H) -ketone 4-methylbenzene sulfonate is the chemical product I have devoted myself to studying. In the investigation of this matter, I adhere to a rigorous state and study its physicochemical properties in detail.
At the beginning, I studied the method of its synthesis, and strived to improve the process, hoping to improve the yield and reduce its cost. During the experiment, various parameters, such as temperature, pressure, and the ratio of reactants, are repeatedly adjusted, with the aim of achieving the best situation.
Then, observe its structural characteristics, and use various instruments to clarify its molecular structure, in order to explore its inner mysteries. This is of great significance in grasping its chemical activity.
As for the direction of development, I think it can be used to expand its field of application. Or used in medicine to see if it has unique curative effects; or used in materials to see if it can be endowed with specific properties. With time and unremitting research, I hope this product will emerge in various fields and contribute to the development of chemistry.

Toxicity Research

Study on the toxicity of 5,6,7,7α-tetrahydrothiopheno [3,2-C] pyridine-2 (4H) -ketone 4-methylbenzenesulfonate
In the course of pharmaceutical research, I often study the properties of various pharmaceutical compounds, and now focus on 5,6,7,7α-tetrahydrothiopheno [3,2-C] pyridine-2 (4H) -ketone 4-methylbenzenesulfonate This compound has a detailed examination of its toxicity.
At first, look at its structure, containing the ring of thiophene and pyridine, and even the radical group of methylbenzenesulfonate. Differences in structure often lead to special toxicity. Based on experimental experiments, select animals and observe their reactions. After administration, observe the behavior, eating, and growth of the animals.
Some animals now have abnormal behavior, or drowsiness, or hyperactivity, and eating is also reduced. After dissection, it is seen that the organs have changed. The color and texture of the liver are different from usual, or it is damaged due to the metabolism of compounds. The kidneys are also abnormal, considering that it affects the ability to excrete.
After this study, it is known that 5,6,7,7α-tetrahydrothiopheno [3,2-C] pyridine-2 (4H) -ketone-4-methylbenzene sulfonate has certain toxicity and can cause physiological abnormalities and organ damage in the organism. Follow-up studies should further investigate its toxicological mechanism, and provide solid evidence for its safe use and rational research.

Future Prospects

Fu 5,6,7,7α-tetrahydrothiopheno [3,2-C] pyridine-2 (4H) -ketone 4-methylbenzene sulfonate is promising for future development in the field of chemical research in China. Its structure is unique and its properties can also be investigated. Although it is currently or at the beginning of research, it will definitely bloom over time.
In the way of pharmaceutical research and development, it may provide a key foundation for the creation of new drugs. Its molecular configuration, or in combination with specific biological targets, is expected to be a sharp edge in the treatment of difficult diseases. In industrial production, if the process is refined and the cost is controllable, it can also be prepared on a large scale to meet the needs of all parties.
Our researchers should take diligence as the wing and study as the arrow to explore its endless potential. In the future, this compound can be like a shining star, illuminating the way forward in chemistry and related fields, and contributing to human well-being.

Where to Buy 5,6,7,7Α-Tetrahydrothieno[3,2-C]Pyridin-2(4H)-One 4-Methylbenzenesulfonate in China?

As a trusted 5,6,7,7Α-Tetrahydrothieno[3,2-C]Pyridin-2(4H)-One 4-Methylbenzenesulfonate manufacturer, we deliver: Factory-Direct Value: Competitive pricing with no middleman markups, tailored for bulk orders and project-scale requirements. Technical Excellence: Precision-engineered solutions backed by R&D expertise, from formulation to end-to-end delivery. Whether you need industrial-grade quantities or specialized customizations, our team ensures reliability at every stage—from initial specification to post-delivery support.

Frequently Asked Questions

As a leading 5,6,7,7Α-Tetrahydrothieno[3,2-C]Pyridin-2(4H)-One 4-Methylbenzenesulfonate supplier, we deliver high-quality products across diverse grades to meet evolving needs, empowering global customers with safe, efficient, and compliant chemical solutions.

5,6,7,7α-Tetrahydrothieno [3,2-C] Pyridin-2 (4H) -One 4-Methylbenzenesulfonate What is it?

5% 2C6% 2C7% 2C7% CE% B1 - Tetrahydrothieno%5B3%2C2 - C% 5DPyridin - 2% 284H% 29 - One 4 - Methylbenzenesulfonate, this is an organic compound. According to its name, it consists of many parts. "5,6,7,7α-tetrahydrothiopheno [3,2 - C] pyridine-2 (4H) -one" is the main structure, and the second half "4-methylbenzenesulfonate" indicates the ester derivative formed by the main structure and 4-methylbenzenesulfonate.
This compound may be useful in the field of organic synthesis. Ester compounds often have unique chemical properties, or can be used to prepare other complex organic molecules. In medicinal chemistry, or as potential pharmaceutical intermediates, with their specific structures, they participate in the construction of pharmaceutical active ingredients; in the field of materials science, or because their structures endow special physical and chemical properties, they are used to synthesize materials with specific properties.
Its specific application depends on the detailed properties of the compound, such as solubility, stability, reactivity, etc. It may take many experiments to explore its performance under different conditions to clarify its exact use and value.

5,6,7,7α-Tetrahydrothieno [3,2-C] Pyridin-2 (4H) -One What is the main use of 4-Methylbenzenesulfonate?

5% 2C6% 2C7% 2C7α-tetrahydrothiopheno [3,2-C] pyridine-2 (4H) -ketone-4-methylbenzene sulfonate has a wide range of uses. In the field of medicine, it can be used as a key intermediate to help develop new drugs for the treatment of various diseases. Due to its unique chemical structure, it can interact with specific targets in organisms to regulate physiological processes, so it plays an important role in the creation of drugs with precise curative effects.
In the field of organic synthesis, it is also an indispensable raw material. With its own structural characteristics, it can participate in multiple reactions and derive various complex and special properties of organic compounds, laying the foundation for the synthesis of novel materials and fine chemicals.
In the field of materials science, materials made from this material may have specific physical and chemical properties, such as unique optical and electrical properties, and are expected to be applied to cutting-edge fields such as electronic devices and optical materials, and promote the progress of related technologies.
In short, 5% 2C6% 2C7% 2C7α-tetrahydrothiopheno [3,2-C] pyridine-2 (4H) -ketone-4-methylbenzene sulfonate plays a pivotal role in many key fields such as medicine, organic synthesis, and materials science, and is of great significance to the development of many industries.

What is the production process of 4-Methylbenzenesulfonate 5,6,7,7α-Tetrahydrothieno [3,2-C] Pyridin-2 (4H) -One?

5% 2C6% 2C7% 2C7% CE% B1-tetrahydrothiopheno [3,2-C] pyridine-2 (4H) -ketone 4-methylbenzenesulfonate The production process is a delicate and complex process.
The choice of starting materials needs to be carefully selected. Often specific sulfur-containing compounds and pyridine derivatives are used as bases. These two must have high purity in order to lay a good foundation for subsequent reactions. For example, if a sulfur-containing raw material has excessive impurities, it is feared that the reaction will be biased and the product will be impure.
At the beginning of the reaction, the two are put into a special reactor in a precise ratio. The environment in the kettle is crucial. The temperature needs to be controlled in a narrow range. If there is a slight difference in the pool, the reaction may be too slow and difficult to achieve expectations; or the reaction may be overheated and side effects may be formed. The pressure also needs to be stabilized at a specific value to help the reaction go smoothly.
At this time, a dedicated catalyst is added, which is like igniting the fuse of the reaction. The catalyst can lower the energy barrier of the reaction, promote the active collision of molecules, and accelerate the reaction process. However, the dosage also needs to be carefully weighed. More is wasted and may lead to adverse reactions, and less is ineffective in catalysis.
During the reaction period, continuous monitoring, such as observing the heat. With precision instruments, gain insight into the reaction process and fine-tune the parameters according to the data. When the reaction is asymptotically expected, carry out the separation and purification technique.
First, the product is initially separated from impurities by extraction. The extraction agent is selected to have a strong affinity for the product and repel the impurities. After extraction, it is further purified by chromatography. By means of the difference between the fixed phase and the mobile phase, the product and the residual impurities are separated one by one.
The final product is 5% 2C6% 2C7% 2C7% CE% B1-tetrahydrothiopheno [3,2-C] pyridine-2 (4H) -ketone 4-methylbenzene sulfonate, which has high purity and excellent quality, and can meet the needs of many fields. This process is rigorous step by step and interlocking, so as to ensure the product is excellent.

5,6,7,7α-Tetrahydrothieno [3,2-C] Pyridin-2 (4H) -One 4-Methylbenzenesulfonate What are the Quality Standards?

5% 2C6% 2C7% 2C7α - Tetrahydrothieno%5B3%2C2 - C% 5DPyridin - 2 (4H) - One 4 - Methylbenzenesulfonate, this is an organic compound, often called p-toluenesulfonate of specific pyridine derivatives. Its Quality Standard covers many important aspects.
First, the appearance should be white to white-like crystalline powder, pure like fine snow, without visible impurities. This feature is not only related to the appearance, but also implies the purity and preparation process.
Then again, the purity is extremely critical, and it should reach more than 98.0%. High purity is the basis for ensuring its stable performance in various reactions and applications. Excessive impurities, or deviation of reaction results, affect the quality of the product.
Melting point is also an important indicator, generally within a specific range, such as 150 - 155 ° C. The precise melting point reflects the regularity and purity of the molecular structure, deviates from this range, or suggests that the substance is impure or abnormal crystal form.
Regarding residual solvents, depending on the raw materials and preparation process used, common organic solvents such as methanol, ethanol, acetone, etc. need to be strictly controlled. For example, methanol residues should not exceed 0.3% and ethanol should not exceed 0.5% to ensure product safety and reduce potential harm to subsequent use and the environment.
Moisture content should also not be ignored, and should be controlled below 1.0%. Excessive moisture may affect the stability and reactivity of compounds, such as causing adverse reactions such as hydrolysis.
Finally, the content of heavy metals, calculated as lead and mercury, must meet strict standards, usually lead shall not exceed 10ppm, mercury shall not exceed 2ppm. Strict control of heavy metals aims to ensure that products used in medicine, electronics and other fields will not introduce harmful impurities, threatening human health and equipment performance.
These Quality Standards are to ensure that 5% 2C6% 2C7% 2C7α - Tetrahydrothieno%5B3%2C2 - C% 5DPyridin - 2 (4H) - One 4 - Methylbenzenesulfonate has stable performance and reliable quality to meet the strict needs of different fields.

5,6,7,7α-Tetrahydrothieno [3,2-C] Pyridin-2 (4H) -One What is the market outlook for 4-Methylbenzenesulfonate?

Today there are 5% 2C6% 2C7% 2C7% CE% B1 - Tetrahydrothieno%5B3%2C2 - C% 5DPyridin - 2% 284H% 29 - One 4 - Methylbenzenesulfonate, which is a chemical substance. In terms of the current market prospects, its prospects are complex, with both advantages and disadvantages.
Looking at its advantages, this chemical substance may have unique potential in the field of pharmaceutical research and development. Today's pharmaceutical industry is developing rapidly, and there is a strong demand for the exploration and application of new compounds. If this substance is studied in depth and confirmed to have specific pharmacological activities, it can become a key raw material for the development of new drugs. For example, in the process of drug development for the treatment of certain diseases, it may play a key role, bringing good news to patients, and then gaining broad space in the pharmaceutical market and creating considerable economic benefits.
However, there are also disadvantages. First, the market for chemical substances is greatly affected by regulations and policies. If relevant regulations set strict standards and restrictions on its production, use, sales, etc., companies need to invest a lot of resources to meet compliance requirements, which may increase production costs and weaken product competitiveness. Second, the risk of research and development should not be underestimated. Although it has theoretical application potential, it needs to go through many complex steps from laboratory research to actual production and market application. If there are technical bottlenecks in the R & D process, it is difficult to achieve mass production, or the product quality cannot meet the market requirements, the early investment will be wasted, and the market prospect will become bleak.
To sum up, 5% 2C6% 2C7% 2C7% CE% B1 - Tetrahydrothieno%5B3%2C2 - C% 5DPyridin - 2% 284H% 29 - One 4 - Methylbenzenesulfonate Although there are opportunities in the market prospect, there are also many challenges, which need to be carefully considered by relevant practitioners and actively responded to in order to seek development in the market.