1,3-Di-O-Tolyguanidine

Lingxian Chemical

Specifications

HS Code	929882
Chemical Formula	C21H23N3
Molecular Weight	317.43 g/mol
Appearance	Solid
Color	Typically white to off - white
Odor	May have a faint characteristic odor
Melting Point	Approximately 170 - 176 °C
Solubility In Water	Poorly soluble
Solubility In Organic Solvents	Soluble in some organic solvents like ethanol, toluene
Density	Data may vary, but around 1.1 - 1.2 g/cm³
Ph	Neutral in pure form
Stability	Stable under normal conditions

Packing & Storage

Packing	1,3 - Di - O - Tolyguanidine: Packed in bags, 10kg per bag.
Storage	1,3 - Di - O - Tolyguanidine should be stored in a cool, dry, well - ventilated area. Keep it away from heat sources, open flames, and oxidizing agents. Store in tightly closed containers to prevent moisture absorption and potential reactions. Avoid storing near incompatible substances. This helps ensure its stability and safety during storage.
Shipping	1,3 - Di - O - Tolyguanidine is shipped in sealed, corrosion - resistant containers. It's carefully packaged to prevent spillage and exposure. Shipments follow strict chemical transportation regulations to ensure safety during transit.

Free Quote

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General Information

Historical Development

The history of 1,3-di-O-toluene guanidine has a long history. At the beginning, people were occasionally exposed to this quality on the road of chemical exploration. At that time, the research was still shallow, and only a few characteristics were known.
As the years passed, scholars studied unremitting. With the advance of chemical technology, their understanding gradually deepened. From the initial ignorance, to the ability to analyze its structure and understand its reaction mechanism.
In the past, limited by technology and cognition, this product was rarely used. However, today is different from the past. Due to breakthroughs in scientific research, it has emerged in many fields. From material synthesis to medical exploration, it has its own shadow. Its historical development is due to the hard work of countless chemists, which has been advanced step by step, and has finally become what it is today, gaining a place in the chemical forest.

Product Overview

1,3-Di-O-toluenylguanidine is one of the substances involved in the study of chemical products. This product has specific properties. Its color may be light, and its texture may be crystalline. It has a unique structure and is composed of specific atoms. It shows different properties between chemical reactions.
It is used in various industrial fields. It can also be used as an auxiliary for rubber vulcanization. In the manufacture of rubber products, it can help improve its performance, such as enhancing elasticity and wear resistance. Or in other chemical synthesis processes, it can be used as a key raw material to help generate new substances.
However, the study of this product also needs to be treated with caution. Observe its reaction conditions and control its dosage to prevent accidents. I am carefully studying its characteristics and applications in the process of research, hoping to open up more beneficial paths and contribute to the development of chemical products.

Physical & Chemical Properties

Today there is a thing called 1,3 - Di - O - Tolyguanidine. Looking at its physical properties, the color is pure and the state is stable, the shape is like a crystalline powder, the texture is uniform, and it shines under the light. It feels smooth but not greasy to the touch. Its melting point is very fixed, and after several measurements, it is about [specific melting point value]. It gradually changes when heated. At this point, it melts into a liquid, and when the phase changes, the energy is absorbed and released in an orderly manner.
In terms of its chemical properties, its activity can be investigated. In a specific reaction environment, it can combine with various reagents. When it encounters an acid, it neutralizes and changes, its chemical bonds are broken, and the rearrangement of atoms is based on the laws of chemistry. It can also participate in organic synthesis in the realm of catalysis, paving the way for the generation of many new compounds. It is actually a key substance in chemical research and is also of great use in the chemical industry.

Technical Specifications & Labeling

There is a product today, named 1,3 - Di - O - Tolyguanidine. In the study of process specifications and identification (product parameters), it is quite important.
Looking at this product, the process specifications need to specify the method of preparation, the geometry of the materials used, and the sequence of steps, all of which should be clear and correct. If the material is selected, it must match the specific quality, and the weighing is accurate, and there must be no mistake. The temperature and time of the reaction are also the key, or the temperature and height will change the quality, and the time will be short.
In terms of identification (product parameters), the appearance characteristics such as shape, color, and taste should be clearly told. The proportion of ingredients and performance indicators need to be confirmed without a doubt. The process specification and identification (product parameters) are the foundation of the product and are crucial to its quality.

Preparation Method

This product is made of 1,3 - Di - O - Tolyguanidine, the first heavy raw material. Choose high-quality o-toluidine and urea, the two are based. The preparation process first puts o-toluidine and urea into a clean reactor according to a specific ratio. The temperature is controlled in a suitable environment, and the temperature is slowly raised to make it fully react. The reaction steps are initially slow, and then gradually expedited to make the two blend and combine.
The catalytic mechanism is also critical. Add a high-efficiency catalyst to promote the reaction speed and yield. Observe the reaction process, adjust the temperature and stir speed in a timely manner to ensure the uniformity of the reaction. After the reaction is completed, through a fine purification process, remove impurities and keep pure, and obtain a refined product. In this way, from the raw material, through the reaction step, according to the catalytic mechanism, Jiapin 1,3-Di-O-Tolyguanidine can be obtained.

Chemical Reactions & Modifications

In recent times, chemical refinement has deepened in the study of various compounds. Today there is 1,3-Di-O-Tolyguanidine, and our generation has studied it, and we attach great importance to its chemical reaction and modification.
Looking at the reaction, all conditions are affected. If the temperature is slightly different, the reaction rate may change, or the product may be different. If the temperature is high, the reaction will speed up, and then it will be a by-product; if the temperature is low, the reaction will be slow.
As for modification, it is also a priority. It can be adjusted by adding other agents and changing the structure. If an adaptor is added, it may increase its stability or change its solubility. Change its molecular structure or change its activity to meet different needs.
Our chemical researchers should study the reaction and modification of this compound in order to explore more possibilities and contribute to chemistry.

Synonyms & Product Names

1,3-Di-O-toluenylguanidine, this substance also has another name. The study of its equivalents and trade names is like exploring the origin of the aliases contained in ancient books.
Ancient scholars have studied the name of the object in detail. 1,3-Di-O-toluenylguanidine, or has another name for its properties and preparation methods. The equivalent of this substance, or according to its chemical structure and reaction characteristics, is just like the ancient alchemists named it by the nature of Dan sand. As for the trade name, the merchants in order to recognize its characteristics, or take its efficacy and use, to attract the eyes of everyone, just like the merchants of ancient times as the name of the product, to benefit the market.
Although its equivalents are different from the trade names, they all refer to this 1,3-di-O-toluenylguanidine. Looking at its various names, like ancient books, although the names are different, they are actually one, all related to the various chemical substances.

Safety & Operational Standards

1,3-Bis-O-toluenylguanidine is an important chemical product. It is necessary to discuss in detail the safety and operation specifications of this product.
When taking it, you must clean your hands and face, wear appropriate protective clothing, such as laboratory clothes and gloves, and choose suitable protective equipment according to the regulations to prevent contact with the skin and eyes. If you accidentally touch it, rinse it with plenty of water quickly, and seek medical treatment if necessary.
When storing it, keep it in a cool, dry and well-ventilated place, away from fire and heat sources, and beware of direct sunlight. It must be stored separately from oxidizing agents, acids, etc., and should not be mixed to prevent dangerous chemical reactions.
During operation, ensure that the space is well ventilated to avoid dust release into the air. If operating in the laboratory, you must follow the established operating procedures of the laboratory and do not act without authorization. If there is any waste, it must not be discarded at will, and it must be properly disposed of in accordance with relevant environmental protection regulations to avoid defacement of the environment.
All operations involving 1,3-di-O-toluene guanidine should be based on safety and strictly abide by the operating specifications, so as to ensure the safety of personnel, protect the environment from damage, and ensure the orderly and smooth progress of related work.

Application Area

Today there is a substance, named 1,3 - Di - O - Tolyguanidine. The use of this substance involves a wide range. In various fields, it has its own functions.
In the genus of chemical industry, it can be used as an auxiliary agent to help the reaction run smoothly and increase the quality and quantity of the product. In the development of materials, it can adjust the properties of materials, make them more suitable for use, or strengthen their quality, or improve their thermal stability.
In medical exploration, it also has potential. It may be the foundation of drug research and development, helping doctors find a cure for diseases and solving patients' diseases. Although its use is still being studied, the prospect is promising, and all kinds of wonderful uses will be explored in depth by our generation, so as to do our best and be used by the world.

Research & Development

Today, there is a substance named 1,3 - Di - O - Tolyguanidine. As a chemical researcher, I observe this substance, observe its characteristics, and think about its development.
This substance has an exquisite structure and unique properties. I am in the laboratory to explore its reaction mechanism through scientific methods. After repeated experiments, I know that it can participate in a variety of wonderful reactions under specific conditions, which has great potential.
However, the road to its development is not smooth. Faced with many problems, such as the accuracy of purification and the efficiency of mass production. My colleagues and I worked tirelessly to study, consult ancient books and classics, and refer to cutting-edge learning, hoping to find a solution.
I firmly believe that through continuous research and exploration, 1,3-Di-O-Tolyguanidine will be able to shine in the chemical industry, contribute to scientific and technological progress and social development, and promote the development and progress of this field.

Toxicity Research

I have heard all the wise men talk about the study of poisons. Today, in 1,3-Di-O-Tolyguanidine, this substance should also be carefully investigated for its toxicity. This substance is also related to the health of people's livelihood, and it is essential to be careful. I will try to use the experimental tool to test its properties in detail. Observe its response to various things, and observe the signs of its change. See it or disturb the order of biochemistry, or the disorder of cells. Although the whole picture is not yet available, the signs of toxicity have already emerged. The study of toxicity is related to the safety of everyone. We must be vigilant day and night, and we must investigate its reasons and understand what it is harmful to. Only then can we prevent it and protect the health of everyone. Don't let this poison be a disaster to the world.

Future Prospects

Today there is a thing, named 1,3 - Di - O - Tolyguanidine, and our generation has devoted ourselves to studying it. Observe its nature, explore its quality, and hope to gain something, so as to develop the grand future. Although this thing is present in the present, we see it as the cornerstone of the great cause of the future.
We want to use this thing to open up the unknown. Or in the field of medicine, to help heal diseases; or in the world of materials, to create strange qualities. Its use is infinite, and the future development is limitless. Although the road ahead is long and the geometry is unknown, we still uphold our original intention and will not hesitate. Believe in this thing will be able to shine in the future, into our unfinished business, round the future, add brilliance to the world, for the benefit of all people.

Frequently Asked Questions

What is the chemical structure of 3-Di-O-Tolyguanidine?

1% 2C3-Di-O-Tolyguanidine, that is, 1,3-dio-toluene guanidine, is an organic compound. To clarify its chemical structure, let me explain it in detail.
Among its structures, guanidine is the key part. Guanidine ($C (NH_2) _3 ^ + $) is a nitrogen-containing functional group and is basic. In this compound, the hydrogen atoms of two amino groups on guanidine are replaced by o-toluene. O-toluene is the methyl group on the ortho (1,2-position) of toluene, which is connected by a benzene ring. In this way, the unique structure of 1,3-dio-toluene guanidine is formed.
From a holistic perspective, this compound has a guanidine group as the core and is connected to an o-toluene group on both sides. This structure endows it with specific chemical properties and reactivity. Due to its nitrogen-containing basic groups, under specific conditions, it can participate in many organic reactions, such as acid-base neutralization, nucleophilic substitution, etc. The existence of two o-toluene groups also affects the spatial structure of the molecule and the distribution of electron clouds, which in turn affects its physicochemical properties, such as solubility and stability.
The chemical structure of 1,3-dio-toluene guanidine is centered on guanidine and adjacent to toluene groups on both sides. The unique structure determines its importance and diverse reaction characteristics in the field of organic chemistry.

What are the main uses of 3-Di-O-Tolyguanidine?

1% 2C3 - Di - O - Tolyguanidine is also a chemical substance. It has a wide range of uses and is used in various industrial fields.
First, in the rubber industry, this substance is often used as a vulcanization accelerator. The vulcanization of rubber is a key step to improve its performance. 1% 2C3 - Di - O - Tolyguanidine can accelerate the vulcanization process, so that the rubber molecules form a cross-linked structure, so that the strength, wear resistance and aging resistance of rubber are enhanced. As a result, the quality and service life of rubber products such as tires and hoses are improved.
Second, in some organic synthesis reactions, 1% 2C3 - Di - O - Tolyguanidine can act as a catalyst. It can reduce the activation energy of the reaction, promote the reaction to occur more easily, and improve the reaction efficiency and yield. In fine chemical synthesis, this effect is particularly significant, helping to synthesize many high value-added organic compounds.
Third, in the field of coatings and adhesives, 1% 2C3 - Di - O - Tolyguanidine also plays a role. In coatings, it can improve the drying performance and adhesion ability of coatings, make coatings adhere more firmly to the surface of objects, and improve the chemical resistance of coatings. In adhesives, it can enhance the adhesive strength and curing speed of the adhesive, resulting in better bonding effect.
In conclusion, 1% 2C3 - Di - O - Tolyguanidine is of great value in many aspects of industrial production, and plays an indispensable role in improving product performance and promoting industrial production efficiency.

1, 3-Di-O-Tolyguanidine what are the precautions during use

1% 2C3-di-O-toluenylguanidine, this is a chemical substance. When using, many matters need to be paid attention to.
First, it is related to safety protection. This substance may be toxic and irritating, so when handling, be sure to wear suitable protective equipment. Protective clothing can prevent it from contacting the skin and prevent damage to the skin; protective gloves must be made of suitable materials to ensure effective barrier; goggles can protect the eyes to prevent it from splashing into the eyes and causing eye damage.
Second, pay attention to the operating environment. When it is well ventilated. If the ventilation is poor, its volatile gas will accumulate in the space and be easily inhaled, endangering health. And the operating table must be clean, dry, free of debris and water stains, so as not to affect its properties or cause abnormal chemical reactions.
Furthermore, the number of draws must be accurate. According to the needs, take the exact amount. If the dosage is too much, or the reaction is excessive, it will increase the cost, or produce unnecessary by-products; if the dosage is too small, it may not react enough and will not achieve the expected effect.
Repeat, storage is also exquisite. It should be placed in a cool, dry and ventilated place, away from fire and heat sources. Because of its nature or due to the influence of temperature, humidity and fire sources, it should be stored properly to ensure its stability and quality.
Furthermore, after use, the disposal of residues and utensils should not be ignored. Residual materials should be treated according to the prescribed method and should not be discarded at will to prevent pollution to the environment. Appliances should be cleaned in time to remove residues for next use. All of these are important items to pay attention to when using 1% 2C3-di-O-methylguanidine.

What are the physical and chemical properties of 3-Di-O-Tolyguanidine?

1% 2C3-di-O-toluene guanidine is a kind of organic compound. Its physical and chemical properties are different, and it is related to many practical ways.
First talk about physical properties. This substance may be in a solid state at room temperature, and its color may be white to light gray powder. Looking at its appearance, the texture is delicate and the touch is smooth. The determination of melting point is also an important physical property. Experiments show that its melting point is in a specific temperature range, which is crucial for determining its purity and processing application. Because it is an organic compound, it has a certain solubility in common organic solvents. For example, in solvents such as ethanol and acetone, it can be dissolved to varying degrees according to different conditions. However, in water, the solubility is poor, which is due to the characteristics of hydrophobic groups in its molecular structure.
As for chemical properties, 1% 2C3-di-O-methylguanidine is basic. Because its molecular structure contains nitrogen atoms, the lone pair electrons on the nitrogen atom can accept protons, so it can react with acids to form corresponding salts. And the benzene ring structure of this compound gives it a certain stability, and under normal conditions, it is not prone to violent reactions such as ring opening. However, under extreme conditions such as high temperature and strong oxidants, its chemical structure may be damaged. At the same time, the guanidine part of its molecule can participate in a variety of organic synthesis reactions, such as condensation reaction with aldars, ketones and other compounds, forming new compounds with special structures and functions. This characteristic makes it widely used in the field of organic synthesis chemistry.
In summary, the physical and chemical properties of 1% 2C3-di-O-toluene guanidine determine its application potential in many fields such as chemical industry and medicine. It is an organic compound worthy of further study.

What is the market price range of 3-Di-O-Tolyguanidine?

I do not have exact information on the market price range of 1% 2C3 - Di - O - Tolyguanidine. However, in the case of "Tiangong Kaiwu", all the products recorded depend on field visits and extensive knowledge. If you want to know the market price of this product, you should also follow this path. Or visit a chemical material dealer, or consult a shop specializing in chemistry, or seek a market for chemical trading. Market prices vary from place to place due to supply and demand conditions, sources of materials, and high quality. And the chemical industry market is changeable, and raw material prices, policies and decrees, and international situations can all move it. If you want to get an accurate market price, you must go to the relevant market, manufacturer, or take advantage of chemical information platforms, industry reports, and participate in schools in order to obtain its approximate price to meet the needs of all things.