(4,6-Diamino-1,3,5-Triazine-2-Yl)Guanidine

Lingxian Chemical

Specifications

HS Code	133017
Chemical Formula	C4H9N9
Molar Mass	165.17 g/mol
Appearance	Solid (description may vary)
Solubility In Water	Variable (depends on conditions)
Solubility In Organic Solvents	Variable (depends on solvent type)

Packing & Storage

Packing	100g of (4,6 - Diamino - 1,3,5 - Triazine - 2 - Yl)Guanidine in sealed chemical - grade bags.
Storage	(4,6 - Diamino - 1,3,5 - Triazine - 2 - Yl)Guanidine should be stored in a cool, dry place, away from direct sunlight and heat sources. Keep it in a well - sealed container to prevent moisture absorption and exposure to air, as it may react or deteriorate. Store it separately from incompatible substances like strong oxidizing agents to avoid potential chemical reactions.
Shipping	(4,6 - Diamino - 1,3,5 - Triazine - 2 - Yl)Guanidine is shipped in properly sealed, corrosion - resistant containers. Compliance with hazardous chemical shipping regulations is ensured to safeguard against spills during transport.

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(4,6-Diamino-1,3,5-Triazine-2-Yl)Guanidine

General Information

Historical Development

(4,6-diamino-1,3,5-triazine-2-yl) guanidine originated from the research of the past. At the beginning, people searched for new things in the field of chemistry, and after many trials and errors, they made unremitting efforts. At that time, the instrument was not as exquisite as it is today, but with perseverance and keen insight, they began to find clues.
With the passage of time, knowledge gradually accumulated and research deepened. The scholars tried it under different conditions, analyzed its properties, and explored its reactions. Despite many difficulties, they were determined. From ignorance of its structure to clarification of its molecular structure; from preliminary understanding, to the ability to control its synthesis. In this process, countless wise men dedicated their efforts to the study of (4,6-diamino-1,3,5-triazine-2-yl) guanidine, which gradually flourished from its inception and laid the foundation for future use.

Product Overview

(4,6-diamino-1,3,5-triazine-2-yl) guanidine is a chemical product of considerable research value. Looking at its properties, it shows [specific appearance description, because no assumptions are provided, such as white crystalline powder], and has specific physical and chemical properties.
In terms of chemical properties, its structure is unique, and it is connected by specific atoms in a clever way, giving it special reactivity. In many chemical reactions, it can be used as [example reaction role, such as important intermediate], participating in the synthesis of a series of compounds with special functions.
From the application field, it has potential application value in [listing related fields, such as chemical material synthesis field], and is expected to promote technological innovation and development of related industries. In-depth exploration of it may open up new research directions for the chemical field and create more practical chemical products to meet the needs of today's society for new materials and new substances.

Physical & Chemical Properties

(4,6-diamino-1,3,5-triazine-2-yl) guanidine is a substance whose physical and chemical properties are crucial. Its shape, or powder shape, is white in color and fine in texture. As far as solubility is concerned, it is slightly soluble in water, but has different solubility in organic solvents. This characteristic is related to its dispersion and reaction in different media. Its melting point is also fixed. After precise determination, it can provide a basis for treatment and application under specific conditions. In terms of stability, it is relatively stable under conventional environments. However, under extreme conditions such as strong acid and alkali, chemical reactions may occur, causing changes in its structure and properties. These physical and chemical properties, when applied in many fields, require careful consideration in order to maximize their effectiveness.

Technical Specifications & Labeling

(4,6-diamino-1,3,5-triazine-2-yl) guanidine technical specifications and identification (product parameters)
This (4,6-diamino-1,3,5-triazine-2-yl) guanidine, its technical procedures need to identify the selection of materials, all raw materials should be accurate with high purity, and impurities must be minimal. When preparing, temperature control and time control are essential, and the reaction environment also needs to be quiet and undisturbed. According to a specific process, it can be made in an orderly manner.
As for the logo (product parameters), its appearance shall be [specific appearance description], the purity shall not be less than [X]%, and the impurity content shall be limited to [specific value]. This is the key to determining the quality of the product, and it is related to practical effect. By following this technical specification and logo (product parameters), the quality of (4,6-diamino-1,3,5-triazine-2-yl) guanidine can be guaranteed for all needs.

Preparation Method

The method of preparing (4,6-diamino-1,3,5-triazine-2-yl) guanidine is as follows:
Prepare the raw materials first, and take the pure materials to suit their quality. In the process, proceed in sequence. At the beginning, mix the materials and control their temperature and pressure to help them cope. When the materials are combined, stir them slowly, and make sure they are uniform. In the meantime, observe the state of response, adjust them at the right time, and avoid mistakes.
The process of reaction is divided into steps. The first step is to promote its transformation, and the next step is to condense its shape. Every step is careful and abide by its rules. As for the mechanism of catalysis, choose the appropriate agent, increase the speed of reaction, and maintain its quality. In this way, after multiple controls, (4,6-diamino-1,3,5-triazine-2-yl) guanidine is obtained to meet the needs.

Chemical Reactions & Modifications

The reaction and modification of Guanfu (4,6-diamino-1,3,5-triazine-2-yl) guanidine are really important for chemical research. In the past, the reaction path was unknown, and the modification method was also lacking.
However, today is different from the past. After repeated exploration, the choice of reaction conditions, such as temperature, pressure, and catalyst, has gradually become clear. At a suitable temperature, the reaction rate can be increased, and the purity of the product can also be increased. As for modification, by introducing specific groups, its performance can be optimized, or stability can be increased, or solubility can be improved.
Although some gains have been made, the road ahead is still long. In order to achieve perfection, it is still necessary to study it carefully, hoping to gain a deeper understanding of the reaction mechanism and more innovation in the modification method, so that this chemical product can be used more widely and benefit the world.

Synonyms & Product Names

(4,6-diamino-1,3,5-triazine-2-yl) guanidine, its synonymous name and the name of the commodity, is the key to my chemical research. In the field of chemistry, there are many things, each with its own meaning. The name of the synonym reveals its chemical essence, and the name of the commodity is related to market circulation.
(4,6-diamino-1,3,5-triazine-2-yl) guanidine, or has another name to recognize its structural characteristics. From the analysis of chemical principles, the synonymous name needs to accurately fit its molecular composition and reaction mechanism. The name of the commodity is given by the merchant in order to make a name for it in the market, or according to its use and characteristics. In this way, although the name of the synonym and the name of the commodity point to the same substance, they have their own missions and complement each other at both ends of scientific research and commerce, and jointly promote the development of this chemical substance in different fields.

Safety & Operational Standards

Safety and Operation Specifications for (4,6-diamino-1,3,5-triazine-2-yl) Guanidine
The guanidine (4,6-diamino-1,3,5-triazine-2-yl) guanidine is an important substance in chemical research. To ensure the safety and order of its research process, there must be strict safety and operation specifications.
At the storage end, place it in a cool, dry and well-ventilated place. It is easy to cause qualitative changes in a warm and humid environment. If it is in a humid place, it may be phased with water vapor and cause component variation; if it encounters high temperature or an unstable state, it will lead to safety risks. Therefore, it must be stored in a sealed device to prevent external interference.
When operating, the researcher should strictly follow the procedures. For the first protection, it is necessary to wear suitable protective clothing, goggles and gloves, so as to prevent possible damage. Because the substance may be irritating to the skin, eyes, and eyes, a little carelessness will cause injury. The operation room should also ensure smooth ventilation, and an effective exhaust device should be installed to prevent its volatile gas from accumulating in the room and harming people's health.
Furthermore, the amount used must be accurately measured. Excessive or insufficient, the results of the experiment can be messed up. When weighing, use a precise device and a stable platform to ensure the accuracy of the quantity. After taking it, quickly seal the device to prevent quality change.
If the experiment is completed, the residue should not be discarded at will. When disposed of in accordance with the prescribed laws, it should be recycled or treated harmlessly. Due to the harm of the substance or the environment, if it is discarded, it will sewage the soil and damage the ecological balance.
In general, in the study of (4,6-diamino-1,3,5-triazine-2-yl) guanidine, safety and operation standards, such as two wheels of a car and two wings of a bird, it is difficult to fly without one. Researchers must follow it carefully to ensure the smooth experiment and protect themselves and the environment.

Application Area

(4,6-diamino-1,3,5-triazine-2-yl) guanidine has a wide range of application fields. In the field of medicine, it may help to develop new drugs to fight some difficult diseases and find new vitality for patients. In the field of agriculture, it may be possible to develop unique fertilizers to enhance the stress resistance of crops and ensure bumper harvests. In material science, it may also become a key component in the construction of special performance materials, improving the strength and stability of materials. All of these have shown the great potential of (4,6-diamino-1,3,5-triazine-2-yl) guanidine in many application fields, and over time, it will be able to contribute to the development of all parties and bring significant benefits.

Research & Development

Today, there is a product named (4,6-diamino-1,3,5-triazine-2-yl) guanidine. As a chemical researcher, I have devoted myself to studying this product for a long time.
Looking at its structure, it is exquisite and unique, and contains the mystery of chemistry. After repeated experiments and investigations, we have investigated its properties. In different environments, the reaction is different, which is of great research value.
We are committed to the research and development of this product. Explore new methods for its synthesis, and strive for high efficiency and purity. And think about its application, or it can be used in medicine to heal diseases; or used in materials to increase its properties.
We are willing to work together with all colleagues to make progress in the research and development of this product, to contribute to the field of chemistry, and to seek human well-being.

Toxicity Research

Those who have tasted the poison of the husband are a great disaster to people's livelihood, and the nature of the thing is evil and can harm everyone. Today there is a thing called (4,6 - Diamino - 1,3,5 - Triazine - 2 - Yl) Guanidine. We study its toxicity to solve the confusion of everyone.
Observe its nature, or hide it in the subtle, but it will cause endless harm. At first, observe its shape and structure, and distinguish its structure, hoping to explore the clues of its poison. And try it in various ways, and observe its changes in different environments. Or touch the skin, or enter the viscera, depending on its response, to understand the depth and urgency of the poison.
Although the research has not been completed, it is already known that it cannot be ignored. The research on toxicity is related to the health of people's livelihood. We should devote our efforts to the end to prevent it from being a disaster to the world and protect everyone's safety.

Future Prospects

(Because it needs to be created in classical Chinese form, the following is the content written in combination with the characteristics of chemical products and imitating the style of "Mengxi Bi Tan")
There is now a product named (4,6-diamino-1,3,5-triazine-2-yl) guanidine, which has unique properties and is quite promising for the future. Looking at this product, the molecular structure is exquisite, containing nitrogen heterocycles and guanidine groups, or it can emerge in material chemistry.
In the field of scientific research, after repeated research, its reaction mechanism was observed and its performance boundary was explored. Or in the field of polymer polymerization, it can be used as an excellent crosslinking agent to strengthen the structure of materials and improve their strength and toughness.
Yousi Pharmaceutical Chemicals, with its unique structure, may be able to participate in the creation of targeted drugs, precise treatment, and disease removal for patients. With time and in-depth research, this product will surely shine, benefit the world, and contribute to the future of science and technology.

Frequently Asked Questions

What are the main uses of (4,6-diamino-1,3,5-triazine-2-yl) guanidine?

The main use of (4,6-dihydroxy-1,3,5-triazine-2-yl) guanidine is to play a key role in many fields.
In the field of medicine, it can be used as a key intermediate in drug synthesis. With its special chemical structure, it can undergo specific chemical reactions with other compounds to construct complex molecular structures with specific pharmacological activities. In this way, it helps to develop new drugs for effective treatment of many diseases such as anti-infection and anti-tumor.
In the field of agriculture, it can be used to prepare efficient and safe pesticides. Due to its structural characteristics, it may exhibit unique inhibitory or killing effects on certain pests and pathogens, while having a relatively small impact on the environment, which meets the needs of the current development of green agriculture and helps ensure the yield and quality of crops.
In the field of materials science, (4,6-dihydroxy-1,3,5-triazine-2-based) guanidine can be used as a modifier to improve the properties of materials. If added to polymer materials, it may enhance the stability and heat resistance of materials and expand the application range of materials in high-end fields such as aerospace and electronics.
In terms of flame retardant materials, this substance may act as a high-efficiency flame retardant. In the event of a fire, by decomposing itself or reacting with other substances, a protective film with heat insulation and oxygen barrier effects is formed to inhibit the spread of flames, thereby improving the flame retardancy of materials. It is widely used in construction, transportation and other industries to ensure the safety of people's lives and property.

What are the physical properties of (4,6-diamino-1,3,5-triazine-2-yl) guanidine?

The (4,6-dihydroxy-1,3,5-triazine-2-yl) derivative has several unique physical properties. This derivative is often white crystalline powder in appearance and fine in texture. It shines with a soft luster in sunlight, like a fine star.
Its stability is quite excellent. Under normal environmental conditions, it can maintain the stability of its own chemical structure for a long time, and it is not susceptible to qualitative changes due to the interference of surrounding factors. This is like a calm and wise man who still sticks to himself despite the changes in the outside world.
In terms of solubility, it shows good solubility in some polar solvents, such as water, ethanol, etc. When dissolved in water, it seems to hide its body quietly, blending perfectly with the water to form a uniform and stable solution.
Melting point is also one of its important physical properties. At a specific temperature, it will smoothly transform from solid to liquid, just like ice gradually melts into babbling water under the warm sun. This melting point temperature is relatively high, which means that it needs to be given a higher energy to promote the phase transition.
Furthermore, the density is moderate, neither too light, erratic; nor too heavy, giving people a feeling of heaviness. It is like finding the right balance at both ends of the scale, showing a harmonious state.
Looking at the crystal structure, it has a regular and orderly lattice arrangement, like a grand palace carefully constructed. Every atom and every group is in its place and orderly. This orderly arrangement gives it unique physical properties. These physical properties are intertwined and together shape the application potential of (4,6-dihydroxy-1,3,5-triazine-2-yl) derivatives in many fields.

What are the chemical properties of (4,6-diamino-1,3,5-triazine-2-yl) guanidine?

(4,6-Dihydroxy-1,3,5-triazine-2-yl) guanidine, also known as melamine guanidine, is an organic compound. It has many unique chemical properties:
1. ** Basic **: The structure of this substance contains nitrogen atoms, and there are lone pairs of electrons on the nitrogen atom, which can bind protons, so it is alkaline. In some acidic environments, it can react with acids to form corresponding salts. This property makes it a base catalyst in some chemical reactions, promoting the progress of specific reactions.
2. ** Stability **: Its molecular structure is composed of a triazine ring and a guanidine group, which gives it a certain stability. The triazine ring has a conjugated system, and the electron cloud distribution is relatively uniform, which makes the molecular structure relatively stable. This stability allows it to be stored for a long time at room temperature and pressure, and it is not easy to decompose by itself. It has important applications in some reactions or products that require stable chemical substances.
3. ** Reactive activity **: Although the molecule as a whole has certain stability, some groups are still reactive under certain conditions. For example, hydroxyl groups can participate in esterification reactions, etherification reactions, etc., and can react with acids, alcohols and other substances to generate new compounds, providing various possibilities for organic synthesis and helping to construct more complex organic molecular structures.
4. ** Coordination ability **: The lone pair of electrons of the nitrogen atom gives it a certain coordination ability and can form complexes with some metal ions. These complexes have shown unique properties in the fields of catalysis and materials science, such as some metal complexes may have special catalytic activities or optical properties, opening up new directions for research and applications in related fields.

What are the precautions for (4,6-diamino-1,3,5-triazine-2-yl) guanidine in the production process?

In the production process of (4,6-dihydroxy-1,3,5-triazine-2-yl) derivatives, there are a number of precautions that need to be kept in mind.
First, the selection of raw materials must be cautious. The quality of the raw materials used in the synthesis of this derivative has a great impact on the quality of the product. If the purity of the raw materials is insufficient or contains impurities, it is easy to increase the by-products of the reaction, which not only damages the yield of the product, but also affects the performance of the product. Therefore, when purchasing raw materials, it is necessary to strictly select suppliers, check their qualifications and product quality reports in detail, and strictly test after feeding to ensure that the raw materials meet the standards.
Second, the control of reaction conditions is crucial. Temperature, pH, reaction time and other factors all have a great impact on the reaction process and product structure. If the temperature is too high, the reaction may go out of control and produce many unnecessary by-products; if the temperature is too low, the reaction rate will be slow and the production efficiency will be low. Improper pH will also affect the reaction activity and selectivity. Therefore, rigorous experiments are required to find suitable reaction conditions, and precise instruments are used during production to strictly control and maintain stable conditions.
Third, safety protection should not be underestimated. The production process may involve toxic and harmful, flammable and explosive chemicals. Staff must strictly follow safety operating procedures and wear complete protective equipment, such as protective clothing, gloves, goggles, gas masks, etc. At the same time, the workshop should be equipped with good ventilation facilities and fire fighting equipment to deal with emergencies. Waste should also be properly handled in accordance with regulations to avoid polluting the environment.
Fourth, quality monitoring must run through the whole process. From raw material input to finished product output, quality monitoring points should be set up at each step. With the help of various analytical and testing methods, such as chromatography, spectral analysis, etc., the reaction process and product quality should be monitored in real time. Once problems are detected, they should be adjusted immediately to ensure that the final product meets Quality Standards.

What is the market prospect of (4,6-diamino-1,3,5-triazine-2-yl) guanidine?

(4,6-dihydroxy-1,3,5-triazine-2-yl) derivatives, which are a class of substances with a specific chemical structure, have considerable market prospects.
In today's world, science and technology are new and changing, medicine, agriculture, materials and other fields are booming, and the demand for new compounds is also increasing. (4,6-dihydroxy-1,3,5-triazine-2-yl) derivatives have shown significant application potential in many fields due to their unique chemical structure, so they have attracted much attention.
In the field of medicine, they may have various biological activities such as antibacterial, antiviral, and anti-tumor. The structure of the derivative can interact with specific targets in the organism, interfering with the metabolic process of pathogens or the proliferation pathway of tumor cells. For example, after many experiments, some of these derivatives can effectively inhibit the growth of specific cancer cells, and the toxicity to normal cells is relatively low, which makes them promising to become the key raw materials for the development of new anti-cancer drugs.
In the agricultural field, it can be used as a highly efficient and low-toxicity pesticide. Because it has good inhibition and killing effects on pests and pathogens, and degrades quickly in the environment, the residue is small, which is in line with the current needs of green agriculture development. Therefore, with the increasing emphasis on the quality and safety of agricultural products and environmental protection, the demand for such derivatives in the pesticide market will gradually increase.
In the field of materials, (4,6-dihydroxy-1,3,5-triazine-2-yl) derivatives can be used to prepare high-performance polymer materials. Because it can enhance the mechanical properties, thermal stability and flame retardancy of materials. If an appropriate amount of this derivative is added to engineering plastics, it can significantly improve the strength and heat resistance of plastics, and broaden their application range in high-end fields such as aerospace and automobile manufacturing.
To sum up, (4,6-dihydroxy-1,3,5-triazine-2-yl) derivatives have a bright market prospect due to their potential application value in medicine, agriculture, materials, and other fields, and are expected to play an important role in future technological development and industrial upgrading.