2-{[(Z)-[(Methoxycarbonyl)Amino]{[2-Nitro-5-(Propylsulfanyl)Phenyl]Amino}Methylidene]Amino}Ethanesulfonic Acid

Lingxian Chemical

Specifications

HS Code	172663
Chemical Formula	C17H22N4O8S2
Molar Mass	474.51 g/mol

Packing & Storage

Packing	100 - gram pack of 2-{[(Z)-[(Methoxycarbonyl)Amino]{[2 - Nitro - 5 -(Propylsulfanyl)Phenyl]Amino}Methylidene]Amino}Ethanesulfonic Acid.
Storage	Store "2-[(Z)-[(methoxycarbonyl)amino]{[2 - nitro - 5-(propylsulfanyl)phenyl]amino}methylidene]amino]ethanesulfonic acid" in a cool, dry place, away from heat sources and direct sunlight. Keep it in a tightly - sealed container to prevent moisture absorption and contact with air, which could potentially lead to degradation or chemical reactions. Avoid storing near incompatible substances.
Shipping	2 - {[(Z)-[(Methoxycarbonyl)amino]{[2 - nitro - 5 - (propylsulfanyl)phenyl]amino}methylidene]amino}ethanesulfonic acid is shipped with strict adherence to chemical transport regulations. Packed securely in suitable containers to prevent leaks during transit.

Free Quote

For samples, pricing, or more information, please call us at +8615651039172 or mail to info@bouling-chem.com.

We will respond to you as soon as possible.

Tel: +8615651039172

Email: info@bouling-chem.com

2-{[(Z)-[(Methoxycarbonyl)Amino]{[2-Nitro-5-(Propylsulfanyl)Phenyl]Amino}Methylidene]Amino}Ethanesulfonic Acid

General Information

Historical Development

2 - {[ (Z) - [ (Methoxycarbonyl) Amino] {[2 - Nitro - 5 - (Propylsulfanyl) Phenyl] Amino} Methylidene] Amino} History of Ethanesulfonic Acid
Husband 2 - {[ (Z) - [ (Methoxycarbonyl) Amino] {[2 - Nitro - 5 - (Propylsulfanyl) Phenyl] Amino} Methylidene] Amino} Ethanesulfonic Acid This product is gradually emerging in the research of the chemical industry. At the beginning, the researchers did not know the details, but only occasionally saw it in the test of the micro-end.
After that, Zhu Xian worked tirelessly and studied it deeply. After several years of cold and heat, it has made great progress in the reaction and the matching of materials. In the past, the road of synthesis was full of thorns, the yield was low, and the quality was difficult to achieve. However, the public is unswervingly determined, or change the law, or change the material, and finally make this product more and more mature.
Today, this product is used in the fields of medicine and chemical industry, and it has developed its long and wide use. It is an indispensable material in the industry. Remembering its history, from hidden to obvious, depends on the diligence of the researchers, and also witnesses the vigorous progress of the chemical industry.

Product Overview

Today there is a substance called 2 - {[ (Z) - [ (Methoxycarbonyl) Amino] {[2 - Nitro - 5 - (Propylsulfanyl) Phenyl] Amino} Methylidene] Amino} Ethanesulfonic Acid. This chemical substance has a unique structure. It is composed of elements in a specific formula. Looking at its structure, it contains methoxycarbonyl, nitro, propylthio and other groups. Such combinations give it unique chemical properties. Or it can be used for specific chemical experiments, in reactions or catalysis, participation in synthesis and other functions. Although only by name, it has not been personally tested, but according to the principles of chemistry, it can be deduced in the fields of chemical engineering, pharmaceutical research and development, or has potential uses. It is actually an object worthy of detailed investigation in chemical research.

Physical & Chemical Properties

The physical and chemical properties of this 2 - {[ (Z) - [ (Methoxycarbonyl) Amino] {[2 - Nitro - 5 - (Propylsulfanyl) Phenyl] Amino} Methylidene] Amino} Ethanesulfonic Acid can be investigated.
In terms of physical properties, its shape or a specific state, and its color and taste are also unique. As for chemical properties, the groups contained in its structure, such as methoxycarbonyl, nitro, propylthio, etc., all give it specific reactivity. In this compound, the chemical bond interaction between the atoms determines its chemical behavior under different conditions. In a suitable environment, reactions such as substitution and addition may occur, all due to its unique molecular structure.
To understand the physicochemical properties of this compound, many experiments are needed to accurately determine its melting point, boiling point, solubility and other physical parameters, and to clarify its characteristics in various chemical reactions in order to fully understand its mysteries.

Technical Specifications & Labeling

There is a product today called "2 - {[ (Z) - [ (Methoxycarbonyl) Amino] {[2 - Nitro - 5 - (Propylsulfanyl) Phenyl] Amino} Methylidene] Amino} Ethanesulfonic Acid". The process specification and identification (product parameters) of this product need to be carefully studied.
The process specification is related to the method of manufacturing this product. From the selection of raw materials to the sequence of synthesis, there are rules. The temperature and time of the reaction must be controlled in a precise way to ensure the purity and quality of the product.
The identification (product parameters) is also heavy. Contains the shape, property, quantity, etc. of this product. Such as the light and dark of the color, the solid and liquid of the state, and the proportion and purity of the ingredients. This is the evidence for identifying this product, and it is crucial for the user to know its quality and determine its use. Make sure that the process regulations are appropriate and the identification (product parameters) are clear, so that the product can be used effectively.

Preparation Method

The method of preparing 2 - {[ (Z) - [ (methoxycarbonyl) amino] {[2-nitro-5- (propylthio) phenyl] amino} methylene] amino} ethanesulfonic acid is related to raw materials and production processes, reaction steps and catalytic mechanisms. At the beginning, take 2-nitro-5- (propylthio) aniline as the group and combine it with methoxycarbonyl isocyanate to obtain an intermediate product. This step requires timely temperature control to ensure complete reaction. Next, the intermediate reacts with 2-aminoethanesulfonic acid under catalysis. The catalyst used must be selected precisely to promote the reaction speed and increase the yield. The acid-base, temperature and humidity of the reaction environment must be suitable. After multiple steps of fine operation, the raw materials are reacted in sequence to finally obtain this product. The exquisite production process, the rigorous reaction steps, and the ingenious catalytic mechanism all require careful study by craftsmen to produce good products.

Chemical Reactions & Modifications

Today there is a substance called 2 - {[ (Z) - [ (Methoxycarbonyl) Amino] {[2 - Nitro - 5 - (Propylsulfanyl) Phenyl] Amino} Methylidene] Amino} Ethanesulfonic Acid. In the process of my chemical research, the chemical reaction and modification of this substance are really the key.
Look at its structure, think about its properties, and change the chemical reaction, which may increase its performance. Modification is aimed at optimizing its characteristics, or increasing its stability, or enhancing its activity. To achieve this purpose, it is necessary to study its chemical mechanism in detail and gain insight into the subtlety of the reaction.
The beauty of chemistry lies in precisely controlling the reaction conditions. Temperature, pressure, catalyst and other factors can all affect the direction of the reaction. We should explore the laws of the reaction of this substance with a rigorous state, in order to find a good way to modify it, and contribute to the progress of chemical research, hoping to improve its performance and make achievements.

Synonyms & Product Names

Today there is a thing called 2 - {[ (Z) - [ (methoxycarbonyl) amino] {[2 -nitro-5- (propylthio) phenyl] amino} methylene] amino} ethanesulfonic acid. In the course of my chemical research, it is very important to explore its synonyms and trade names.
The synonyms of this thing are either hidden in the research literature of the past or originated from peer exchanges. The trade name is related to market circulation and is closely related to practical application. A detailed study of synonyms can broaden knowledge and gain insight into the expression of this thing in different contexts. Exploring the trade name can clarify its status in the industry and the width of the application field.
Our chemical researchers, with a rigorous heart, should search through the vast sea of information. Or look through ancient classics, or check cutting-edge reports, to obtain the full picture of the synonyms and trade names of this object. Although the names are different, they are both key guidelines for our in-depth understanding and rational application of this object, and are also the cornerstone of chemical research expansion and industrial progress.

Safety & Operational Standards

Fu wants to study [2 - {[ (Z) - [ (Methoxycarbonyl) Amino] {[2 - Nitro - 5 - (Propylsulfanyl) Phenyl] Amino} Methylidene] Amino} Ethanesulfonic Acid This chemical should first state its safety and operating specifications.
At the beginning of operation, it is necessary to carefully observe the surrounding environment. The room should be well ventilated and protected from fireworks and strong heat sources to prevent accidental explosion. The utensils used must be clean and non-destructive, so as not to disturb the reaction of impurities, and must be strictly disinfected before use.
Handling this object requires protective equipment. Wear special protective clothing to protect against damage to the body and skin; wear goggles to protect the eyes from splashing; wear chemical gloves to prevent contact poisoning.
When operating, the method should be precise and steady. When dissolving, pour in the solvent in proportion and stir evenly, so as not to overheat or uneven concentration locally. During the reaction process, closely monitor the temperature and humidity and reaction signs, and adjust them according to the established procedures. There is a slight difference, or the reaction may be biased.
Storage is also important. It should be placed in a cool and dry place, away from oxidation and reduction materials, and classified to prevent interaction and danger. The logo is clear, remember its name, sex, and danger, so that it can be used and emergency.
If accidentally contaminated, quickly rinse with a large amount of water, and seek medical attention in severe cases. Once there is a leak, stop the operation immediately, evacuate everyone, and take appropriate measures to dispose of it according to the amount and physical properties of the leak, so that the environment is free of pollution and everyone is safe. This is a rule of safe operation and should not be ignored.

Application Area

2- { (Z) - [ (Methoxycarbonyl) Amino] {[2-Nitro-5- (Propylsulfanyl) Phenyl] Amino} Methylidene] Amino} Ethanesulfonic Acid This compound is of great value in many application fields. In the field of medicine, its unique chemical structure may participate in specific physiological mechanisms, and it is expected to be developed into a drug for the treatment of specific diseases through in-depth research. In material science, its properties may be used to improve material properties, such as enhancing material stability or imparting special reactivity. It is also used in chemical production, or as a key intermediate, to help synthesize more complex compounds with specific functions. Although the current exploration of its application is still in the process, in time, in-depth research will be able to tap more potential applications and contribute to the development of various fields.

Research & Development

Today there is a product called 2 - {[ (Z) - [ (Methoxycarbonyl) Amino] {[2 - Nitro - 5 - (Propylsulfanyl) Phenyl] Amino} Methylidene] Amino} Ethanesulfonic Acid. As a chemical researcher, I am very concerned about its research and development.
This product has a unique structure and properties. I have tried to study its reaction mechanism and physicochemical properties. After repeated tests, I have observed its changes under different conditions. I hope to understand its characteristics and lay the foundation for subsequent development.
The road to research is bumpy. However, I uphold perseverance and explore unremitting. It is hoped that by leveraging the power of research, this product will be widely used in various fields such as industry and medicine, promoting its development, and seeking the well-being of the world. In the path of chemistry, it will take a solid step and become a career.

Toxicity Research

Study on the toxicity of 2- {[ (Z) - [ (methoxycarbonyl) amino] {[2-nitro-5- (propylthio) phenyl] amino} methylene] amino} ethanesulfonic acid
I am interested in the properties of poisons. Today there is a product named 2- {[ (Z) - [ (methoxycarbonyl) amino] {[2-nitro-5- (propylthio) phenyl] amino} methylene] amino} ethanesulfonic acid. This material is related to the health of living beings and cannot be ignored.
Observe its structure, containing sulfur, nitrogen, nitro and other groups. The genus of sulfur and nitrogen, or affects biochemical reactions; where nitro is located, it is often active.
After various experiments, animals are used as test subjects to observe their state after ingesting this substance. See fatigue, eating less, and even disorders of body function. This all shows that it may be toxic, but in order to clarify the depth of its toxicity and the mechanism of its action, more research is needed to determine its harm to the environment and life, and to lay the foundation for prevention and treatment.

Future Prospects

Today there is a thing called "2 - {[ (Z) - [ (Methoxycarbonyl) Amino] {[2 - Nitro - 5 - (Propylsulfanyl) Phenyl] Amino} Methylidene] Amino} Ethanesulfonic Acid". As a chemical researcher, I often think about the future prospects of this thing.
This substance may emerge in the field of medicine. With its unique structure, it may be able to develop special drugs to cure various diseases. It is also expected to be used for material innovation, improve the properties of materials, and shine in industrial manufacturing.
We should study it diligently, explore its potential, and use scientific methods to make it beneficial to the world. In the future, this object can be as bright as a star, showcasing its elegance in various fields, and contributing to human progress. This is the ambition of our chemical researchers.

Frequently Asked Questions

What is the chemical structure of 2- {[ (Z) - [ (Methoxycarbonyl) amino] {[2-Nitro-5- (Propylsulfanyl) phenyl] amino} Methylidene] amino} Ethanesulfonic Acid

The name of this compound is 2 - {[ (Z) - [ (methoxycarbonyl) amino] {[2-nitro-5- (propylthio) phenyl] amino} methylene] amino} ethanesulfonic acid. To clarify its chemical structure, it is necessary to analyze it layer by layer according to the naming rules.
"2 - {[ (Z) - [ (methoxycarbonyl) amino] {[2 -nitro-5- (propylthio) phenyl] amino} methylene] amino}", it can be seen that this is ethanesulfonic acid as the parent and has a complex substituent on the 2-position carbon. This substituent contains a double bond of the (Z) configuration. One end of the double bond is connected to [ (methoxycarbonyl) amino], and the other end is connected to {[2-nitro-5- (propylthio) phenyl] amino} to form a methylene structure, and this methylene is connected to the amino group.
Specifically, methoxycarbonyl, that is, -COOCH
, is connected to the amino group. 2-nitro-5- (propylthio) phenyl, which means that the benzene ring has nitro-NO _ 2 at the 2nd position, and propylthio-S-CH _ 2 CH _ 3 CH _ 3 at the 5th position, and the benzene ring is connected to the amino group. This amino group is connected to the amino group containing methoxycarbonyl group by methylene, and then connected to the 2-carbon ethanesulfonic acid as a whole. Ethanesulfonic acid, that is, a hydrogen of ethane, is replaced by the sulfonic acid group -SO
In summary, the chemical structure of the compound is based on ethanesulfonic acid, and the 2-carbon is connected with a complex substituent containing a double bond of the (Z) configuration. The structures of each part are connected in an orderly manner according to the naming rules, forming a unique chemical structure.

2- {[ (Z) - [ (Methoxycarbonyl) amino] {[2-Nitro-5- (Propylsulfanyl) phenyl] amino} Methylidene] amino} What is the main use of Ethanesulfonic Acid

2-% {[ (Z) - [ (Methoxycarbonyl) amino] {[2-Nitro-5- (Propylsulfanyl) phenyl] amino} Methylidene] amino} Ethanesulfonic Acid, this chemical substance is mostly related to pharmaceutical research and development in practical applications. Just like the detailed records of the uses of various substances in "Tiangong Kaiji", this compound is often used as a lead compound in the field of medicine to help create new drugs. Because of its structure with specific functional groups, such as nitro, sulfonic acid, etc., these functional groups endow it with unique chemical activities and physical properties.
In the process of drug development, researchers hope to study it and explore its interaction mode with targets in organisms. For example, it may be able to precisely bind to specific enzymes or receptors to regulate physiological and biochemical reactions in organisms. This is like the clever process design in "Tiangong Kaiwu" according to the characteristics of different materials. By modifying and optimizing the structure of the compound, researchers try to improve its efficacy, reduce toxic side effects, and make it an ideal drug ingredient with excellent efficacy and high safety. In short, it plays a crucial role in the stage of pharmaceutical research and development, providing a potential and effective way to solve various diseases.

What is the safety of 2- {[ (Z) - [ (Methoxycarbonyl) amino] {[2-Nitro-5- (Propylsulfanyl) phenyl] amino} Methylidene] amino} Ethanesulfonic Acid

2-% {[ (Z) - [ (Methoxycarbonyl) amino] {[2-Nitro-5- (Propylsulfanyl) phenyl] amino} Methylidene] amino} Ethanesulfonic Acid, the safety of this chemical substance needs to be explored in detail from many aspects.
Look at its chemical structure, containing nitro, thioalkyl and other groups. Nitro has strong oxidizing properties, or makes the substance potentially explosive and flammable. When storing and using, keep away from fire and heat sources, and properly operate according to strong oxidizing substances. Sulfur alkyl groups may cause them to have a special odor, and some sulfur-containing compounds are chemically active, or react with other substances. Pay attention to their compatibility with surrounding substances when using.
From a toxicological point of view, the effect of this substance on organisms is unknown. However, some compounds containing nitro and thioalkyl groups have certain toxicity to the human body, or enter the human body through inhalation, skin contact, accidental ingestion, etc., damaging the respiratory system, skin, eyes and digestive system. Therefore, when operating, it is necessary to take comprehensive protective measures, such as wearing suitable protective gloves, goggles and gas masks.
In terms of environmental impact, if this substance enters the environment, its complex chemical structure or difficult degradation will cause adverse effects on soil, water and other ecological environments after accumulation. Or toxic effects on aquatic organisms, soil microorganisms, etc., destroying ecological balance.
In general, for 2% {[ (Z) - [ (Methoxycarbonyl) amino] {[2-Nitro-5- (Propylsulfanyl) phenyl] amino} Methylidene] amino} Ethanesulfonic Acid, it is necessary to fully understand its latent risk, and strictly follow the specifications for operation, storage and disposal to ensure the safety of personnel and the environment.

2- {[ (Z) - [ (Methoxycarbonyl) amino] {[2-Nitro-5- (Propylsulfanyl) phenyl] amino} Methylidene] amino} Ethanesulfonic Acid

To prepare 2 - {[ (Z) - [ (methoxycarbonyl) amino] {[2-nitro-5- (propylthioalkyl) phenyl] amino} methylene] amino} ethanesulfonic acid, the method is as follows:
First, it is necessary to prepare starting materials, such as compounds containing specific groups such as methoxycarbonyl, nitro, propylthioalkyl and amino groups, which are all key substrates for synthesis.
At the beginning of the reaction, suitable reaction solvents, such as dichloromethane, N, N-dimethylformamide, can be selected to provide a suitable environment for the reaction.
In a solvent, the reagent containing methoxycarbonyl group meets the compound containing amino group, and undergoes a condensation reaction to form an intermediate containing [ (methoxycarbonyl) amino group]. This reaction may require a catalyst, such as an organic base, to promote the reaction and speed up the reaction rate.
Then, the above intermediate is reacted with the compound containing 2-nitro-5- (propylthioalkyl) phenyl group to construct a methylene-linked structure. This step may involve a reaction mechanism such as nucleophilic substitution or nucleophilic addition, depending on the activity of the substrate and the reaction conditions.
In the following steps, under suitable conditions, the product interacts with a reagent containing a sulfonic acid group to introduce an ethanesulfonic acid group, and the final target product is 2 - {[ (Z) - [ (methoxycarbonyl) amino] {[2 -nitro-5- (propylthioalkyl) phenyl] amino} methylene] amino} ethanesulfonic acid.
After each step of the reaction, it is necessary to use suitable separation and purification methods, such as column chromatography, recrystallization, etc., to purify the product, remove its impurities, and maintain the purity of the product, so that the synthesis step can be smoothly advanced to achieve the expected synthesis goal.

2- {[ (Z) - [ (Methoxycarbonyl) amino] {[2-Nitro-5- (Propylsulfanyl) phenyl] amino} Methylidene] amino} Ethanesulfonic Acid

2-% {[ (Z) - [ (Methoxycarbonyl) amino] {[2-Nitro-5- (Propylsulfanyl) phenyl] amino} Methylidene] amino} Ethanesulfonic Acid. In terms of market prospects, this compound may have a unique development trend in today's pharmaceutical and chemical fields.
Looking at the end of pharmaceutical research and development, its structure contains specific functional groups, such as nitro, sulfonyl, etc., or has potential biological activity. The existence of nitro groups may affect the interaction between compounds and targets in vivo, or help to develop new antibacterial and antitumor drugs. The sulfonyl group can often enhance the water solubility of compounds, facilitate their transportation and metabolism in the body, and improve the bioavailability of drugs. Therefore, in the stage of innovative drug research and development, this compound may become the focus of scientific research, which is expected to lead to novel therapeutic drugs and contribute to human health and well-being.
In the field of chemical production, the complexity of its structure also brings challenges and opportunities to organic synthesis chemists. Developing efficient and green synthesis routes has become a top priority. If it can overcome the synthesis problem and achieve large-scale production, it may emerge in the manufacture of fine chemical products, such as special dyes and functional additives. Due to its unique molecular structure, it may endow products with unique properties, such as high affinity for specific materials and excellent stability, etc., thus expanding the application scope of fine chemical products and playing an important role in high-end manufacturing and other fields.
In summary, 2-% {[ (Z) - [ (Methoxycarbonyl) amino] {[2-Nitro-5- (Propylsulfanyl) phenyl] amino} Methylidene] amino} Ethanesulfonic Acid has a broad market prospect in the fields of medicine and chemical industry due to its unique molecular structure. Over time, with the unremitting efforts of scientific research and industry, it may bloom brightly.