2-Cyano-1-Methyl-3-(2-(((5-Methylimidazol-4-Yl)Methyl)Thio)Ethyl)Guanidine

Lingxian Chemical

Specifications

HS Code	407593
Chemical Formula	C10H15N5S
Molecular Weight	237.33 g/mol
Appearance	Solid (predicted)
Melting Point	N/A (no data found)
Boiling Point	N/A (no data found)
Solubility In Water	Low (due to non - polar parts in structure)
Logp	Estimated to be positive (lipophilic nature with alkyl and heterocyclic groups)
Pka	N/A (no data found for guanidine group in this context)
Density	N/A (no data found)
Flash Point	N/A (no data found)

Packing & Storage

Packing	100g of 2 - Cyano - 1 - Methyl - 3 - (2 - (( (5 - Methylimidazol - 4 - Yl)Methyl)Thio)Ethyl)Guanidine in sealed container.
Storage	Store 2 - Cyano - 1 - Methyl - 3 - (2 - (((5 - Methylimidazol - 4 - Yl)Methyl)Thio)Ethyl)Guanidine in a cool, dry place away from heat sources and direct sunlight. It should be kept in a tightly closed container to prevent moisture absorption and potential reaction with air components. Store in a well - ventilated area, separate from incompatible substances to avoid any chemical reactions.
Shipping	2 - Cyano - 1 - Methyl - 3 - (2 - (((5 - Methylimidazol - 4 - Yl)Methyl)Thio)Ethyl)Guanidine is shipped in carefully sealed containers, compliant with chemical transport regulations. Shipment ensures protection from environmental factors 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-Cyano-1-Methyl-3-(2-(((5-Methylimidazol-4-Yl)Methyl)Thio)Ethyl)Guanidine

General Information

Historical Development

At the beginning of the 20th century, Western chemistry gradually entered Middle Earth, and many novel compounds were recognized by the academic community. Among them is a substance called 2 - Cyano - 1 - Methyl - 3 - (2 - ((5 - Methylimidazol - 4 - Yl) Methyl) Thio) Ethyl) Guanidine.
At that time, chemical research was in the ascendant, and the exploration of this compound began. Scholars started their research journey with limited tools and knowledge in simple laboratories. Although the conditions were difficult, their enthusiasm did not decrease.
After several years, the understanding of its properties has gradually deepened, and the idea of application has also emerged. In the mid-term, some research results emerged, laying the foundation for subsequent development. In the years that followed, with technological innovation, the research on this compound became more and more advanced, and it expanded in the fields of medicine and chemical industry. Its historical evolution witnessed the waves of chemical development.

Product Overview

Product Overview of 2-cyano-1-methyl-3- (2 - ((5-methylimidazole-4-yl) methyl) thio) ethyl) guanidine
The 2-cyano-1-methyl-3- (2 - ((5-methylimidazole-4-yl) methyl) thio) ethyl) guanidine I mentioned today is an important product in chemical research. Its unique structure is cleverly combined with cyano, methyl, imidazolyl and sulfur-containing ethyl.
In terms of chemical properties, this product exhibits specific reactivity and stability due to the interaction of various groups. From a research perspective, it is expected to play a key role in many fields. For example, in the field of medicinal chemistry, it may be modified based on its structure to develop drugs with specific pharmacological activities; in the field of materials science, it may also provide opportunities for the development of new materials due to its unique chemical properties.
However, in-depth research on it still needs time, and many properties and application potentials still need to be further explored. It is hoped that follow-up research can fully demonstrate its value.

Physical & Chemical Properties

2 - Cyano - 1 - Methyl - 3 - (2 - ((5 - Methylimidazol - 4 - Yl) Methyl) Thio) Ethyl) Guanidine is the key to chemical research due to its physical and chemical properties. Its appearance may be in a specific form, such as powdery or crystalline, and its color is also characteristic. In terms of solubility, it has different manifestations in specific solvents, or is easily soluble in a certain type of organic solvent, but its solubility in water may vary. Its stability is also worth exploring. Under different environmental conditions, such as temperature and humidity changes, the chemical structure may change accordingly. In terms of chemical activity, specific groups enable them to participate in many chemical reactions and interact with other substances. The study of these physical and chemical properties is of great significance for in-depth understanding of the characteristics and applications of this compound, and can lay a solid foundation for subsequent research and practical applications.

Technical Specifications & Labeling

Today there is a product called 2 - Cyano - 1 - Methyl - 3 - (2 - (((5 - Methylimidazol - 4 - Yl) Methyl) Thio) Ethyl) Guanidine. To clarify its technical specifications and identification (product parameters), we need to observe it in detail.
Looking at this substance, its chemical structure is unique, containing cyanide, methyl, imidazolyl and other groups. Technical specifications are related to its purity. When high purity is the most important, the impurity content must be strictly controlled. In terms of identification, the name must be accurate to prevent confusion. In product parameters, physical and chemical properties are also key, such as melting point, boiling point, solubility, etc., should be measured in detail.
To prepare this product, the process needs to be rigorous and the parameters of each step are appropriate to ensure its quality. In this way, its technical specifications and identification (product parameters) can be clarified, laying the foundation for subsequent research and application.

Preparation Method

The method of preparing 2-cyano-1-methyl-3- (2 - ((5-methylimidazole-4-yl) methyl) thio) ethyl) guanidine is related to the raw materials and production process, reaction steps and catalytic mechanism. Preliminary raw materials, such as 5-methylimidazole, are added according to a specific ratio. At the beginning of the reaction, under suitable temperature and pressure, 5-methylimidazole and sulfur-containing reagents are condensed to obtain key intermediates. Then, the intermediates are reacted with cyano and methyl-related reagents in sequence to control the reaction conditions, such as pH and duration. In the process, a catalytic mechanism is set up to promote the reaction with a special catalyst, and each step is accurately grasped to obtain the product according to this method, ensuring quality and yield.

Chemical Reactions & Modifications

Today there is a product called 2 - Cyano - 1 - Methyl - 3- (2 - ((5 - Methylimidazol - 4 - Yl) Methyl) Thio) Ethyl) Guanidine. As a chemical researcher, I often study the chemical reaction and modification of this product.
Looking at the reaction, the results are different if the conditions are different. It can undergo unique changes under specific temperature, pressure and catalyst conditions. The cracking and combination of chemical bonds follow the laws of chemistry. However, in the reaction, impurities and environmental variables have an impact. In order to obtain good results, the conditions must be carefully controlled.
Discussing modification aims to increase its efficiency and expand its application. Or change its molecular structure, or add other groups to change its properties. After many attempts, it may be able to make it extraordinary in the fields of medicine and materials. Although the research journey is long, I firmly believe that intensive research on chemical reactions and modifications will surely make this product useful and beneficial to the world.

Synonyms & Product Names

"Mengxi Bi Tan" was written by Shen Kuo in the Northern Song Dynasty, which is rich in content and has made particular contributions to the field of science. In ancient classical Chinese, it describes the synonyms and trade names of the products "2 - Cyano - 1 - Methyl - 3 - (2 - ((5 - Methylimidazol - 4 - Yl) Methyl) Thio) Ethyl) Guanidine".
This chemical substance, the study of its synonyms and trade names, is crucial in the field of chemistry. However, when I explore this "2 - Cyano - 1 - Methyl - 3 - (2 - ((5 - Methylimidazol - 4 - Yl) Methyl) Thio) Ethyl) Guanidine" today, I must investigate various classics and documents in detail. It also needs to be verified by many experiments to ensure that its synonyms are accurate, and the trade name should be standardized and clear. Many chemical substances often have different names due to differences in regions and uses. Therefore, the search for synonyms and trade names of this product needs to be rigorous and meticulous, and cannot be missed. In this way, it can provide a definite basis for chemical research, production and application, and promote the steady progress of the chemical discipline.

Safety & Operational Standards

Today there is a thing called 2 - Cyano - 1 - Methyl - 3 - (2 - (((5 - Methylimidazol - 4 - Yl) Methyl) Thio) Ethyl) Guanidine, which is related to safety and operation standards and should not be ignored.
If you want to make this thing, the first priority is safety. The operator wears protective gear in front of a special suit, such as a mask to protect the breath, and gloves to protect the hands and prevent damage to the body. In the place of operation, it should be well ventilated so that harmful gas can be dissipated and does not gather in the room. And put out a fire device to prevent unexpected fire.
When operating, follow the rules. The amount of the material must be accurately weighed, and there should be no difference of millimeters. When mixing, the speed is moderate, and the stirring is uniform, so that the reaction is sufficient. Temperature and time are also the key points. According to the established procedure, it should not be easier at will. If there is a deviation, the reaction may not be smooth, or the risk of an accident.
After the reaction is completed, the handling of the product should also be done properly. Store properly and place in a dry and cool place, away from strong light and hot topics. When handling, be careful to prevent it from spilling.
All of these are important for the safety and operation of 2 - Cyano - 1 - Methyl - 3 - (2 - (((5 - Methylimidazol - 4 - Yl) Methyl) Thio) Ethyl Guanidine. The operator should keep it in mind and not slack off, so that things can go smoothly and people can be safe.

Application Area

2 - Cyano - 1 - Methyl - 3 - (2 - ((5 - Methylimidazol - 4 - Yl) Methyl) Thio) Ethyl) Guanidine This chemical substance is quite wonderful in the field of medical research. It can be involved in the road of disease resistance, or can control the reproduction of viruses. View all pharmacology, or by virtue of its structural properties, block the combination of viral proteins and break the chain of replication.
In the context of biochemical research, this agent can probe the path of cell signaling. With its unique properties, or can adjust the activity of specific proteins, it reveals the secret of intracellular communication, and helps researchers analyze the rules of cell operation, contributing to the progress of life science.
In the field of drug research and development, it may be the foundation of new prescriptions. Through subtle adjustments, it may become a good medicine for healing diseases, relieve the suffering of patients, and lead to new directions in the development of medicine, adding color to health and well-being.

Research & Development

I have been studying 2 - Cyano - 1 - Methyl - 3 - (2 - ((5 - Methylimidazol - 4 - Yl) Methyl) Thio) Ethyl) Guanidine for a long time. At first, explore the structure of its molecule, analyze the relationship between its chemical bonds in detail, in order to explain its chemical properties. Then, observe its reaction in different environments, and observe the phenomenon of its interaction with various reagents.
In the course of the experiment, improve the method of synthesis, hoping to improve the output of this product. After repeated experiments and adjustment of conditions, such as temperature, pressure, ratio of reactants, etc., a better method was finally obtained.
Looking to the future, we hope to use this achievement to expand its application field. Or used in medicine, as a cure for diseases; or used in chemical industry, as the cornerstone of new materials. Continuous research can promote the development of this product in various fields and benefit the world.

Toxicity Research

Taste the nature of things, related to the safety of people's livelihood. Now in 2 - Cyano - 1 - Methyl - 3 - (2 - ((5 - Methylimidazol - 4 - Yl) Methyl) Thio) Ethyl) Guanidine, focus on toxicological research.
Detect its quality and explore its impact on life. After various experiments, observe its characterization of various organisms. Or observe its reaction when it enters the body, or test its change in the environment. Hope to know the strength of its toxicity and the mechanism of action.
The study of toxicology is not overnight. It must be prudent and rigorous, and it must be investigated in every way. Because of toxic things, if you are not careful, you will have endless disasters. Therefore, I study day and night, striving to obtain the true meaning, so as to clarify the interests of this thing to all living beings, and to provide evidence for the use of this thing by the world, to ensure the safety of people's livelihood and the peace of the environment.

Future Prospects

Fu 2 - Cyano - 1 - Methyl - 3 - (2 - (((5 - Methylimidazol - 4 - Yl) Methyl) Thio) Ethyl) Guanidine This substance, in the current chemical research, has an unknown future prospect. Its structure is unique and seems to contain opportunities for change. Although it is not widely studied at the moment, its composition may be able to bloom in the field of medicine.
Or it can help heal diseases, with its unique nature, attack difficult diseases; or it can shine in the field of agrochemical, protect the health of crops, and increase the yield of acres. Although the road ahead is uncertain and the fog is still thick, we researchers should have a fearless heart and explore its secrets to open up a new situation in the future, so that this substance can develop its hidden power, benefit all living beings, and achieve unfinished business. In the path of science, we should also explore a new realm.

Frequently Asked Questions

What are the main uses of 2-Cyano-1-Methyl-3- (2- ((5-Methylimidazol-4-Yl) Methyl) Thio) Ethyl) Guanidine

2-Cyano-1-methyl-3- (2 - ((5-methylimidazole-4-yl) methyl) thioethyl) guanidine, which is mostly found in the field of pharmaceutical chemical industry, is crucial in the process of new drug creation and chemical synthesis.
In the path of pharmaceutical research and development, it can be a lead compound. Physicians and researchers observe its structure and characteristics, hoping to reveal new pharmacological mechanisms or find new disease therapeutic targets. For example, by modifying and modifying its molecules, it is expected to create specific drugs for specific diseases, which have potential applications in anti-cancer, anti-infection and other aspects. Due to the complex mechanism of diseases, a variety of compounds are required as the cornerstone of research, and this compound may become the key to unlocking the treatment of difficult diseases.
In the field of chemical synthesis, it is an important intermediate. Chemists can use various chemical reactions as a basis to build more complex molecular structures. Because of its unique structure and specific functional groups, it can trigger a variety of chemical reactions, paving the way for the synthesis of high-end fine chemicals. For example, the synthesis of materials with special properties and functional additives, etc., all need to use such compounds as starting materials and carefully designed reaction steps to finally obtain the desired products.
And it is also meaningful for theoretical research in organic synthetic chemistry. Scholars can use the investigation of their reaction properties and reaction conditions to deepen their understanding of the reaction mechanism of organic chemistry, contribute to the development of organic chemistry theory, guide the development and optimization of subsequent new reactions, and help chemical synthesis technology move towards new frontiers.

What are the chemical properties of 2-Cyano-1-Methyl-3- (2- ((5-Methylimidazol-4-Yl) Methyl) Thio) Ethyl) Guanidine

This substance is called 2-cyano-1-methyl-3- (2 - (((5-methylimidazole-4-yl) methyl) thio) ethyl) guanidine, and its chemical properties are quite complex.
Looking at its structure, it contains a cyanide group (-CN). This group has certain reactivity. The carbon atom of the cyanyl group is partially positively charged and is vulnerable to nucleophilic attack. It can undergo hydrolysis reaction. Under acidic or basic conditions, the cyanyl group can be gradually converted into a carboxyl group (-COOH) or an amide group (-CONH ²). There is also methyl (-CH
5-methyl imidazole-4-base moiety, the imidazole ring is a nitrogen-containing heterocycle, which has a certain electron donor effect. Although the chemical properties are relatively stable, it can affect the electron cloud distribution and spatial structure of the molecule, and then have an effect on the overall reactivity.
5-methyl imidazole-4-base moiety, the imidazole ring is a nitrogen-containing heterocycle, which is aromatic, and because of the presence of nitrogen atoms, it has a certain alkali, which can react with acids to form salts, and the methyl group on the ring will affect its electron cloud density and spatial resistance, so that the reactivity of In addition, the thioether bond (-S-) connects the ethyl group to the imidazole group, and the sulfur atom has a lone pair of electrons, which has a certain nucleophilicity and can participate in the oxidation reaction. It can be oxidized to sulfoxide (-SO-) or sulfone (-SO2O -).
In the guanidine group (-C (NH) NH2O), the nitrogen atom is rich in electrons, strong in basicity, easy to combine with protons to form a stable conjugated structure. In an acidic environment, the guanidine group can be protonated to enhance the water solubility of the molecule, and the guanidine group is also used as an active check point to participate in various chemical reactions and form complexes
This compound exhibits unique chemical properties due to the interaction of various groups, and may have important applications in organic synthesis, medicinal chemistry and other fields.

2-Cyano-1-Methyl-3- (2- ((5-Methylimidazol-4-Yl) Methyl) Thio) Ethyl) Guanidine What are the precautions in the production process

2-Cyano-1-methyl-3- (2 - ((5-methylimidazole-4-yl) methyl) thio) ethyl) guanidine in the production process, many matters need to be paid attention to.
The quality of the first raw material. In the synthesis of this compound, the purity and quality of the raw material are the key. If the raw material is impure, impurities or side reactions will affect the purity and yield of the product. Such as 5-methylimidazole-4-formaldehyde and other raw materials, the purchase needs to choose high-quality suppliers, strictly test the purity, and ensure that the starting material meets the standard.
The second time is the reaction condition. Temperature, pressure, reaction time and pH, etc., have a great impact on the reaction process. If the temperature is too high, the reaction may go out of control and the by-products will increase; if the temperature is too low, the reaction rate will be slow and time-consuming. Take a specific reaction as an example, the appropriate temperature for a certain step is 40-50 ° C. In this range, the reaction is stable and the yield is ideal; beyond this range, the quality and yield of the product will be affected. And the reaction time should also be precisely controlled. If the reaction time is short, the reaction will be incomplete; if the time is long, it will cause an overreaction.
Furthermore, it is the reaction equipment. Equipment with good corrosion resistance and good sealing is indispensable. Because of its reaction or corrosive reagents, ordinary material equipment is easily corroded, shortens the life, affects production, and has a high risk of If the reaction kettle needs to choose the right material, regular inspection and maintenance to ensure that the seal is good and there is no hidden danger of leakage.
Another attention should be paid to the operation of personnel. Operators should be professionally trained and familiar with the process flow and operating procedures. Illegal operation or cause safety accidents, affecting product quality. If the feeding sequence is wrong, or cause a violent reaction; inaccurate measurement, affecting the reaction ratio.
After talking about product separation and purification. This compound has a complex structure and it is difficult to separate and purify. Appropriate methods need to be selected, such as column chromatography, recrystallization, etc., fine operation, to obtain high-purity products. Otherwise, impurities remain, affecting product performance and application.

What is the market price of 2-Cyano-1-Methyl-3- (2- ((5-Methylimidazol-4-Yl) Methyl) Thio) Ethyl) Guanidine

I don't know what you said about the price of 2 - Cyano - 1 - Methyl - 3 - (2 - ((5 - Methylimidazol - 4 - Yl) Methyl) Thio) Ethyl) Guanidine in the market. However, the price of things in the market often changes for various reasons.
The price of these things is first and foremost about their quality. If the quality is high and pure, and it meets the high standards of all uses, the price will be high; if the quality is inferior, the quality is too heterogeneous, and it is hindered to use, the price will be low.
Secondly, the amount of this product is also related to the price. If the amount of production is abundant, and the market supply is sufficient, according to the principle of supply and demand, the price may decline; if the amount of production is small, and there are many applicants, and the supply is in short supply, the price may rise.
Furthermore, the method and fee of making this product also have an impact. If the production method is difficult, multi-material and multi-labor are required, and the cost is huge, the price is difficult to lower; if the production method is simple and the cost is saved, the price may be close to the people.
There is competition in the city. If there are many people who produce this product, and the competition is intense, it is to attract customers, and the price may drop; if there are few producers and few competitors, the price may be haute couture.
In addition, the price varies from time to place. At a certain time and place, the price may fluctuate due to changes in demand, transportation costs, etc.
In short, if you want to know the price of 2 - Cyano - 1 - Methyl - 3 - (2 - ((5 - Methylimidazol - 4 - Yl) Methyl) Thio) Ethyl) Guanidine City, you must carefully consider the situation, or consult the merchants, or observe the market movement, you can get a more accurate price.

2-Cyano-1-Methyl-3- (2- ((5-Methylimidazol-4-Yl) Methyl) Thio) Ethyl) Guanidine

2-Cyano-1-methyl-3- (2 - ((5-methylimidazolium-4-yl) methyl) thio) ethyl) guanidine, which is a more complex organic compound. In today's pharmaceutical and chemical fields, it is common to search for its substitutes. In order to find suitable substitutes for it, it is necessary to carefully investigate the chemical properties, functional effectiveness and other factors of this substance.
This substance has a specific chemical structure and activity, and its cyano, methyl, imidazolyl and other groups give it unique properties. Or due to the difficulty of synthesis, cost considerations, environmental impact, etc., it is necessary to find substitutes. If you focus on its chemical structure, you can try to find compounds with similar structures and easy to synthesize. For example, modify the imidazole ring to replace it with other nitrogen-containing heterocycles, or change the structure of the side chain substituents to simplify the synthesis step or reduce the cost on the basis of maintaining the overall activity.
Or from a functional point of view, if this substance is mainly used for specific pharmacological effects, such as antibacterial, antiviral, etc., other compounds with similar pharmacological activities can be screened. Looking at the chemical exploration of ancient and modern times, it is often by analogy to learn from the characteristics of known compounds to develop new alternatives. However, when looking for alternatives, the evaluation of their safety and effectiveness must not be ignored. Only after rigorous experimental verification can we ensure that the new substitute can be widely used to replace the original 2-cyano-1-methyl-3- (2 - ((5-methylimidazole-4-yl) methyl) thio) ethyl) guanidine, and play an effective role in related fields.