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Home Products 4-{4-[(S)-(4-Chlorophenyl)(Pyridin-2-Yl)Methoxy]Piperidin-1-Yl}Butanoic Acid Benzenesulfonate (1:1)

Sulfonic Acid Series Sulfamic Acid Series Guanidine Series

Sulfonic Acid Series

Sulfamic Acid Series

Guanidine Series

4-{4-[(S)-(4-Chlorophenyl)(Pyridin-2-Yl)Methoxy]Piperidin-1-Yl}Butanoic Acid Benzenesulfonate (1:1)

Specifications

HS Code	713796
Chemical Name	4-{4-[(S)-(4-Chlorophenyl)(Pyridin-2-Yl)Methoxy]Piperidin-1-Yl}Butanoic Acid Benzenesulfonate (1:1)

As an accredited 4-{4-[(S)-(4-Chlorophenyl)(Pyridin-2-Yl)Methoxy]Piperidin-1-Yl}Butanoic Acid Benzenesulfonate (1:1) factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

Packing & Storage

Packing	10 g of 4-{4-[(S)-(4 - Chlorophenyl)(pyridin - 2-yl)methoxy]piperidin - 1-yl}butanoic acid benzenesulfonate (1:1) in sealed vial.
Storage	Store 4-{4-[(S)-(4 - Chlorophenyl)(pyridin - 2 - yl)methoxy]piperidin - 1 - yl}butanoic acid benzenesulfonate (1:1) in a cool, dry place, away from direct sunlight. Keep it in a well - sealed container to prevent moisture and air exposure, which could potentially lead to chemical degradation or changes to its properties. Avoid storing near sources of heat or incompatible substances.
Shipping	The chemical 4-{4-[(S)-(4 - Chlorophenyl)(pyridin - 2 - yl)methoxy]piperidin - 1 - yl}butanoic acid benzenesulfonate (1:1) will be shipped in carefully sealed, appropriate containers, following strict chemical shipping regulations to ensure safety during transit.

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4-{4-[(S)-(4-Chlorophenyl)(Pyridin-2-Yl)Methoxy]Piperidin-1-Yl}Butanoic Acid Benzenesulfonate (1:1)

General Information

Historical Development

Those who have heard of the ancient research of medicine have tried their best to find a good prescription for the world. Today there is a thing named 4- {4- [ (S) - (4 - Chlorophenyl) (Pyridin - 2 - Yl) Methoxy] Piperidin - 1 - Yl} Butanoic Acid Benzenesulfonate (1:1), and its research and development path has also gone through vicissitudes of life.
At the beginning, the researchers explored the vast classics and numerous experiments. At that time, science was not yet developed, the equipment was simple, and it was all about human effort. As the years passed, science and technology became more prosperous, and research methods became new. The wise men worked tirelessly to study, analyze its ingredients, explore its pharmacology, and hone in failure and setbacks.
After countless winters and summers, this compound finally emerged. From the initial hazy cognition to the clarification of its structure and efficacy, it all depends on the efforts of researchers of all dynasties. Looking at its historical evolution, it is like a long river rushing, gathering the wisdom of everyone, to obtain this achievement, adding bricks and mortar to the road of medicine and relieving the pain of the common people.

Product Overview

There is a compound named 4- {4- [ (S) - (4-chlorophenyl) (pyridine-2-yl) methoxy] piperidine-1-yl} butyrate benzenesulfonate (1:1). This compound has a delicate structure and contains specific groups such as 4-chlorophenyl, pyridine-2-yl, etc. It is connected to piperidine by methoxy and forms a salt in a specific ratio with butyric acid and benzenesulfonate. From the nature theory, or has unique chemical activity, it can show special properties in the reaction. From the perspective of application, through in-depth research, it may have potential applications in the field of medicine, or it may be developed into a new type of drug, or it may find a place in the field of materials science to help technological progress and industry development.

Physical & Chemical Properties

The physical properties of 4- {4- [ (S) - (4-chlorophenyl) (pyridine-2-yl) methoxy] piperidin-1-yl} butyrate benzenesulfonate (1:1) are of great importance due to its physicochemical properties. The appearance of this compound may be in a specific form, or in the form of a crystal or a powder. Its melting point, or a specific value, is related to its phase transition. In terms of solubility, it varies in different solvents, and it is soluble or insoluble in water, alcohols, ethers and other solvents, which is related to its dispersion characteristics in different environments. And its stability also needs to be considered. Under changes in light, temperature, and humidity, it may be stable or prone to change. These physical properties are of critical significance in its experimental research and production applications.

Technical Specifications & Labeling

There is a product named 4- {4- [ (S) - (4-chlorophenyl) (pyridine-2-yl) methoxy] piperidine-1-yl} butyrate benzenesulfonate (1:1). The technical specifications and identification (product parameters) of this product need to be discussed in detail.
Its technical specifications are related to the purity and composition ratio of this compound. Among them, 4- {4- [ (S) - (4-chlorophenyl) (pyridine-2-yl) methoxy] piperidin-1-yl} butyric acid is combined with benzenesulfonate in a ratio of 1:1. This ratio is accurate and relates to the properties and uses of the product. Above purity, it is also necessary to strictly control the amount of impurities. When it is in a very small range, in order to ensure its chemical stability and normal function.
In terms of identification (product parameters), in addition to the precise identification of the name, its physical properties, such as color and morphology, should be clearly recorded. And the chemical properties of this compound, such as solubility and stability, are also key to identification. In this way, it can be used correctly in chemical, pharmaceutical, and other applications without error.

Preparation Method

Now I want to describe the preparation method of 4- {4- [ (S) - (4-chlorophenyl) (pyridine-2-yl) methoxy] piperidine-1-yl} butyrate benzenesulfonate (1:1), which is related to the raw materials and production process, reaction steps and catalytic mechanisms.
To prepare this product, prepare various raw materials, such as chlorophenyl with specific structures, pyridine-2-yl related compounds, as well as piperidine, butyric acid, benzenesulfonic acid, etc. Its production process, the sequence of the first reaction steps. First, the active chlorophenyl and pyridine-2-based compounds are reacted under specific conditions to form a key intermediate. This requires precise temperature control and timing to ensure complete reaction.
Then, the intermediate is reacted with piperidine to construct a piperidine-1-based structure, and the reaction medium and pH are the main factors. Then introduce butyric acid to form the main structure of the target. Finally react with benzenesulfonic acid in a ratio of 1:1 to obtain the product.
The catalytic mechanism is also the key. Choose a suitable catalyst or metal complex to accelerate the reaction process and improve the yield. Each step of the reaction needs to be strictly monitored and the conditions fine-tuned according to the reaction characteristics, so that this compound can be prepared.

Chemical Reactions & Modifications

There is now a thing called 4- {4- [ (S) - (4-chlorophenyl) (pyridine-2-yl) methoxy] piperidine-1-yl} butyrate benzenesulfonate (1:1). In the field of chemistry, I have devoted myself to studying its chemical reactions and modifications.
Looking at this compound, its structure is exquisite, chlorophenyl and pyridyl are connected to piperidinyl, and it forms a salt of benzenesulfonic acid. To change its properties, first explore its reaction. This may involve nucleophilic substitution to ease its substituent and change its activity; or redox, adjust its electron cloud distribution and change its stability. When
is modified, it is hoped to increase its water solubility and facilitate its transmission in biological systems; or to enhance its stability and keep it unchanged in complex environments. In this way, after repeated research, it is expected to obtain ideal chemical properties and contribute to related fields.

Synonyms & Product Names

4- {4- [ (S) - (4-chlorophenyl) (pyridine-2-yl) methoxy] piperidin-1-yl} butyrate benzenesulfonate (1:1) The study of the same trade name is an important part of chemical research. Those who are the same can help researchers identify this thing in different expressions. The trade name is related to the market promotion.
The same as this thing, or derived from it by means of micro-specialization or synthesis. And the trade name, or its characteristics and uses, to benefit the market. For example, in the multi-literature and market promotion, the same trade name is like a wing, which helps the research results of this thing to be widely disseminated and used. We researchers need to observe the relationship between this object and the trade name in order to promote the steps of research and distinguish the name and appearance of this object in different situations, so as to make better use of its characteristics and add value to the work.

Safety & Operational Standards

Fu 4 - {4 - [ (S) - (4 -chlorophenyl) (pyridine-2-yl) methoxy] piperidine-1-yl} butyrate benzenesulfonate (1:1) This chemical is of paramount importance for safety and operating standards.
At the safety end, this chemical may be potentially harmful. Its chemical structure is unique, containing chlorophenyl, pyridyl and other parts, and contact may cause different effects on the human body. If it comes into direct contact with the skin, or causes allergies or irritations, it is necessary to wear protective clothing, such as impermeable lab clothes and gloves, to avoid skin exposure. If you accidentally touch it, rinse it with a large amount of water as soon as possible, and then seek medical treatment.
Its volatile gases may enter the respiratory tract and damage the respiratory system. It is important to operate in a well-ventilated environment, or use a fume hood to drain the volatile gas and reduce the risk of inhalation. If you feel uncomfortable inhaling, you should leave the scene as soon as possible to a fresh air place, and seek medical assistance if necessary.
Discuss the operating specifications. Before the experiment, be sure to understand its chemical properties and reaction mechanism. When weighing, use precise instruments and follow the specified procedures to ensure that the amount is accurate, and do not increase or decrease at will. When dissolving and mixing, pay attention to the order and speed to prevent violent reactions. The reaction conditions are strictly controlled, and factors such as temperature, pressure, and time are all related to the reaction process and product purity.
When storing, store in a cool, dry, and ventilated place, away from direct sunlight and heat sources, to prevent deterioration and decomposition. And separate from other chemicals to prevent mutual reaction.
In short, in the research operation of 4- {4- [ (S) - (4-chlorophenyl) (pyridine-2-yl) methoxy] piperidine-1-yl} butyrate benzenesulfonate (1:1), both safety and standardization can ensure the smooth experiment and personnel safety.

Application Area

There is now a product named 4- {4- [ (S) - (4-chlorophenyl) (pyridine-2-yl) methoxy] piperidine-1-yl} butyrate benzenesulfonate (1:1). Its application field is quite critical. In the field of medicine, it may help physicians treat various diseases. Due to the unique structure of the compound, it may interact with specific targets in the human body, regulate physiological functions and relieve diseases. In chemical research, it also has potential. It can be used as a raw material, and through ingenious methods, new materials with specific properties can be prepared, which adds to the chemical technology. Although not widely known, with time, in-depth investigation will be able to shine in the application fields of medicine and chemical industry, and seek well-being for the world.

Research & Development

There is now a thing named 4- {4- [ (S) - (4-chlorophenyl) (pyridine-2-yl) methoxy] piperidine-1-yl} butyrate benzenesulfonate (1:1). As a chemical researcher, I have been studying it for a long time. This compound has a delicate structure and different characteristics. After many experiments, its physicochemical properties have been investigated in detail, and its reactions in different environments have been observed.
At the beginning of the study, efforts have been made to analyze its molecular structure, to understand the formula of its atomic connection, and to understand its inherent nature. Then its physical properties, such as melting point, solubility, etc., are investigated, which is essential for application selection. Re-study its chemical activity, observe its reaction with other substances, and hope to obtain the best method for preparation, or explore new ways to use it.
At present, although there are some gains in the research of this compound, in order to widely apply it and promote its development, it still needs to be deeply cultivated. It is hoped that in the follow-up research, we can learn its delicacy, so that this product can be used in the fields of medicine and chemical industry to develop its growth and use, adding new colors to the industry and seeking well-being.

Toxicity Research

The toxicity of 4- {4- [ (S) - (4 -chlorophenyl) (pyridine-2-yl) methoxy] piperidin-1-yl} butyrate benzenesulfonate (1:1)
Fuzumin 4- {4- [ (S) - (4 -chlorophenyl) (pyridine-2-yl) methoxy] piperidin-1-yl} butyrate benzenesulfonate (1:1) needs to be investigated in detail. Looking at the structure of this substance, the organic groups are complex, and chlorophenyl and pyridyl are connected to piperidinyl, which form benzenesulfonate.
To test it with ancient methods, first observe its influence on the representation of biological organisms. Select all kinds of creatures, apply this thing, and observe the changes in their diet, actions, and demeanor. Then explore its effect on the viscera, and look at it in detail. Observe the heart, liver, spleen, lung, kidney and other organs, and observe the differences in their shape, color, and texture. Also check its biochemical indicators, such as enzyme activity and protein content, to illustrate its disturbance to the metabolism of organisms. However, the study of toxicity can not be done all the time. When different doses and different procedures are applied, the results can be recorded in detail, so as to obtain the true appearance of its toxicity, and lay the foundation for future use, or to avoid its harm, or to make good use of it.

Future Prospects

Guanfu 4- {4- [ (S) - (4-chlorophenyl) (pyridine-2-yl) methoxy] piperidin-1-yl} butyrate benzenesulfonate (1:1) This product has considerable prospects for the future. Although it is only in the field of research now, its potential should not be underestimated.
The research of chemistry is like a vast sea, exploring the unknown. This compound has a unique structure and seems to hold endless mysteries. My generation has dedicated myself to studying it, hoping to gain insight into its properties and explore its uses.
Looking to the future, it may emerge in the field of medicine. With its unique structure, it may be able to play a miraculous role in specific diseases and solve the suffering of patients. Or in other places such as material science, it can show a different style and create a new situation. Although the road ahead is long, full of unknowns and challenges, we scientific researchers must move forward with great effort and make unremitting efforts to uncover its future brilliance.

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Frequently Asked Questions

As a leading 4-{4-[(S)-(4-Chlorophenyl)(Pyridin-2-Yl)Methoxy]Piperidin-1-Yl}Butanoic Acid Benzenesulfonate (1:1) 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 4- {4- [ (S) - (4-chlorophenyl) (pyridine-2-yl) methoxy] piperidin-1-yl} butyrate benzenesulfonate (1:1)?

In order to solve the problem of this chemical structure, it is necessary to first sort out the chemical groups and reactions involved in the question. The question mentions "4 - {4- [ (S) - (4-methoxyphenyl) (p-2-yl) acetyl] and its - 1 - yl} phenyl butyrate (1:1) ", which is the key information.
Our generation should start from basic chemical knowledge and analyze the structure of each part. "Methoxyphenyl" refers to the structure of methoxy group attached to the benzene ring; "acetyl" is formed by connecting methyl group with carbonyl group; "phenyl butyrate" is obtained by esterification of butyric acid and phenol.
First, the core part is analyzed, (S) - (4-methoxyphenyl) (p-2-yl) acetyl, where (S) represents the chiral configuration, 4-methoxyphenyl as a substituent, connected to the acetyl group, and the other side has "p-2-yl", this "p-2-yl" or another specific substituent, according to the chemical structure naming convention, when in a specific position of the phenyl ring.
Looking at the whole, the 4 - {4 - [...]} part can be regarded as a nested structure, and the 4 - of the outer layer is connected to the inner layer structure, or refers to the substitution of a specific position. "Phenyl butyrate (1:1) " indicates that the substance is composed of the butyric acid part and the phenyl ester part in a 1:1 ratio.
Overall, the chemical structure of this compound is based on the main framework of phenyl butyrate. At the specific position of butyric acid or phenyl ester, a complex substituent of (S) - (4-methoxyphenyl) (p-2-yl) acetyl group is introduced to form a unique chemical structure. Its structure contains not only the aromatic properties of benzene ring, but also the functional groups such as ester group and acetyl group, which endow the compound with specific chemical properties and reactivity. This structure may affect its physical properties, such as solubility, melting point, etc., and may also have specific uses and reactivity in organic synthesis, medicinal chemistry and other fields.

What are the physical properties of 4- {4- [ (S) - (4-chlorophenyl) (pyridine-2-yl) methoxy] piperidin-1-yl} butyrate benzenesulfonate (1:1)?

4 - {4- [ (S) - (4 -cyanobenzyl) (p-2-yl) ethoxy] [p-1-yl]} Benzyl butyrate (1:1) is an organic compound, and its physical properties are crucial, which is related to the application of this compound in many fields.
Looking at its state, at room temperature and pressure, this compound is mostly in a liquid state. Due to its intermolecular forces and structural characteristics, it is difficult to form a regular lattice and solidify. This liquid property is suitable for pipeline transportation and mixing operations in chemical production, which can reduce production difficulty and energy consumption.
When it comes to melting point, its melting point is low, which is due to the interaction of groups such as benzene ring and ester group in the molecular structure, which weakens the attractive force between molecules and causes poor lattice stability. The lower melting point makes the compound easy to melt when the temperature rises slightly, and it has significant advantages in the process that requires low temperature processing, which can avoid the adverse effects of high temperature on the structure and properties of the compound.
In terms of boiling point, its boiling point is higher, which is due to the existence of various forces in the molecule, such as van der Waals force, hydrogen bond, etc., which make the molecules bond tightly. It requires higher energy to overcome the attractive force between molecules and make it gasify. The high boiling point makes the compound stable in high temperature environment, and can be used for high temperature reaction system or high temperature environment material preparation.
In terms of solubility, this compound can be soluble in some organic solvents, such as ethanol, acetone, etc. This is because these organic solvents and compound molecules can form similar intermolecular forces, following the principle of "similar miscibility". Good solubility facilitates its application in organic synthesis, coatings, inks and other fields, and can be used as a solvent or reactant to participate in various chemical reactions.
In terms of density, the density of this compound is different from that of water, which is of great significance for its application in water-related systems. In some liquid-liquid separation or mixing processes, effective separation or mixing operations can be achieved according to their different densities from water.
In summary, the physical properties of 4 - {4- [ (S) - (4 -cyanobenzyl) (p-2-yl) ethoxy] [p-1-yl]} benzyl butyrate (1:1), such as liquid state, melting point, boiling point, solubility, density, etc., play a key role in its application in the fields of chemical industry and materials. Understanding and rationally utilizing these properties can better exert the value of this compound.

What are the uses of 4- {4- [ (S) - (4-chlorophenyl) (pyridine-2-yl) methoxy] piperidin-1-yl} butyrate benzenesulfonate (1:1)?

The use of 4 - {4- [ (S) - (4 -cyanobenzyl) (p-2-yl) acetyl] [and its-1-yl]} benzyl butyrate (1:1), which is a rather complex chemical substance related issues.
Looking at this chemical structure, this compound may have its uses in the field of organic synthesis. In organic synthesis, it can be used as a key intermediate to construct more complex organic molecular structures. Its specific group combinations, such as cyanobenzyl, acetyl, etc., can participate in a variety of organic reactions, such as nucleophilic substitution reactions, addition reactions, etc., through which it can be converted into organic compounds with special functions or structures.
In the field of pharmaceutical chemistry, or has potential medicinal value. Because of its chemical structure, some groups may interact with specific targets in organisms. For example, groups containing nitrogen and carbon such as cyanobenzyl can often affect the lipophilicity and electrical properties of molecules in the design of drug molecules, which in turn affects the binding ability and affinity of drugs and receptors, and is expected to be developed as drugs for the treatment of specific diseases.
In materials science, this compound may be used to prepare functional materials. If it is introduced into the synthesis process of polymer materials, its special structure may endow the material with unique properties, such as improving the thermal stability and mechanical properties of the material, or endowing the material with certain optical, electrical and other special properties to meet the special needs of materials in different fields.

What is the preparation method of 4- {4- [ (S) - (4-chlorophenyl) (pyridine-2-yl) methoxy] piperidin-1-yl} butyrate benzenesulfonate (1:1)?

To prepare 4- {4- [ (S) - (4-methoxyphenyl) (p-2-yl) acetyl] and its-1-yl} naphthyl butyrate (1:1), the method is as follows:
First take an appropriate amount of (4-methoxyphenyl) acetic acid and place it in a clean reaction vessel. Add a suitable catalyst and an appropriate amount of p-2-yl alcohol compound. Control the reaction temperature within a certain range, such as [X] ° C, and continue to stir the reaction at this temperature to make the two esterification reactions occur. When reacting, it is necessary to pay close attention to the reaction process, and the degree of reaction can be monitored by means of thin-layer chromatography.
When the reaction reaches the expected level, cool the reaction system. After that, add appropriate reagents to make the generated ester react with a specific reagent and introduce its -1-group. In this process, the reaction conditions, such as temperature, pH, etc., need to be precisely controlled to ensure the selectivity of the reaction.
After the reaction is completed, the reaction product is separated and purified. First extract with a suitable organic solvent to transfer the product to the organic phase. Then remove the organic solvent by distillation and other means to obtain a crude product.
The crude product is further refined by recrystallization, etc., select a suitable solvent, such as [solvent name], heat to dissolve the crude product, filter while hot to remove insoluble impurities, and then slowly cool to crystallize the product. Filtration collects crystals, and after drying, a relatively pure 4- {4- [ (S) - (4-methoxyphenyl) (p-2-yl) acetyl] and its -1-yl} naphthyl butyrate (1:1). The whole preparation process requires strict compliance with experimental procedures and precise control of reaction conditions to obtain the ideal product.

What is the market outlook for 4- {4- [ (S) - (4-chlorophenyl) (pyridine-2-yl) methoxy] piperidin-1-yl} butyrate benzenesulfonate (1:1)?

4-%7B4-%5B%28S%29-%284-%E6%B0%AF%E8%8B%AF%E5%9F%BA%29%28%E5%90%A1%E5%95%B6-2-%E5%9F%BA%29%E7%94%B2%E6%B0%A7%E5%9F%BA%5D%E5%93%8C%E5%95%B6-1-%E5%9F%BA%7D%E4%B8%81%E9%85%B8%E8%8B%AF%E7%A3%BA%E9%85%B8%E7%9B%90%281%3A1%29 this compound, its market prospect is quite complicated and difficult to predict.
The structure of this compound is specific and contains many special groups, such as 4-alkylbenzyl, ethyloxy, etc. This structure may endow it with unique chemical and physical properties, which may have potential applications in different fields.
In the field of medicine, such compounds may have pharmacological activity. If its structure can interact with specific targets in organisms, it may be developed into new drugs. However, the road to drug development is full of obstacles. It needs to undergo rigorous pharmacological experiments and toxicological tests to prove its safety and effectiveness before it can enter clinical application. This process is long and expensive, so although the market prospect is promising, it is full of variables.
In the field of materials science, it may exhibit unique optical, electrical or mechanical properties due to its special structure. If it can be used well, it can be used to prepare new functional materials, such as optoelectronic materials, polymer composites, etc. However, the promotion and application of new materials requires overcoming problems such as cost control and process optimization. New materials must be significantly better than existing materials in performance and reasonable cost in order to gain a place in the market.
In the chemical industry, this compound may be an important intermediate for the synthesis of other high value-added chemicals. However, the chemical market is greatly affected by factors such as policies and regulations, raw material supply, and environmental protection requirements. Policy changes, fluctuations in raw material prices, and improved environmental protection standards can all have a significant impact on their production and application.
To sum up, the market prospects of 4-%7B4-%5B%28S%29-%284-%E6%B0%AF%E8%8B%AF%E5%9F%BA%29%28%E5%90%A1%E5%95%B6-2-%E5%9F%BA%29%E7%94%B2%E6%B0%A7%E5%9F%BA%5D%E5%93%8C%E5%95%B6-1-%E5%9F%BA%7D%E4%B8%81%E9%85%B8%E8%8B%AF%E7%A3%BA%E9%85%B8%E7%9B%90%281%3A1%29, although there are opportunities due to the unique structure, but also face many challenges such as research and development, costs, regulations, etc. It is difficult to make a conclusion. Only by taking advantage of the situation and moving forward cautiously can we open up the market.