N-Phenyl Guanidine Carbonate

Lingxian Chemical

Specifications

HS Code	763767
Chemical Formula	C14H16N6O3
Molecular Weight	316.32 g/mol
Appearance	White to off - white powder
Odor	Odorless
Solubility In Water	Slightly soluble
Solubility In Organic Solvents	Soluble in some organic solvents like ethanol
Melting Point	200 - 205 °C
Density	1.3 - 1.4 g/cm³
Stability	Stable under normal conditions

Packing & Storage

Packing	1 kg of N - Phenyl Guanidine Carbonate packaged in a sealed, corrosion - resistant bag.
Storage	N - Phenyl Guanidine Carbonate should be stored in a cool, dry, well - ventilated area. Keep it away from heat, open flames, and sources of ignition. Store it in a tightly closed container to prevent moisture absorption. Avoid storing near incompatible substances like strong acids, as they can cause chemical reactions. Regularly check storage conditions to ensure the chemical's integrity.
Shipping	N - Phenyl Guanidine Carbonate is shipped in sealed, corrosion - resistant containers. Transport follows strict chemical shipping regulations, ensuring stable conditions to prevent reactions, with proper labelling for safe handling during transit.

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General Information

Historical Development

The N - Phenyl Guanidine Carbonate is also a chemical substance. Its origin, the early years of the sages in the field of chemistry diligently studied. At the beginning, the cognition is still shallow, and the road to exploration is difficult.
And the passage of time, the more deeply the scholars study. From ignorance to clarity, the method is gradually improved, and the application is also wide. In the past, it only existed in the corner of research, but now it is useful in industry and medicine.
From the beginning of the creation to the prosperity of the expansion, the process of this chemical is the work of all scientists. Its brilliance in various industries has also witnessed the evolution of chemistry, the difficulties of the past, and the brilliance of the present. The development of N-Phenyl Guanidine Carbonate is an important chapter in the history of chemistry.

Product Overview

There is a substance today called N-Phenyl Guanidine Carbonate. This substance is also unique and widely used. Its shape, or powder shape, is pure and uniform in color. Looking at its structure, phenyl is cleverly connected to guanidine and carbonate roots, resulting in its unique chemistry.
As for its use, it shows its ability in various fields. In the field of pharmaceutical research and development, it can be used as a raw material to help make special agents, which is expected to cure various diseases. In the context of material science, materials can be added to increase their properties, making the material stronger and tougher, or specific.
If you want to make this thing, you need a fine method. Controlling the temperature and pressure of the reaction, and adjusting the proportion of materials are all key. If there is a slight difference, it is difficult to make a good product. Therefore, the manufacturer should be very careful to obtain this high-quality product and make it fully effective in the world.

Physical & Chemical Properties

The physicochemical properties of N-Phenyl Guanidine Carbonate are particularly important. Looking at its shape, under normal conditions, it may be in the shape of white crystals, delicate and uniform, like the cleanliness of frost and snow. In terms of its properties, the melting point is quite specific, and it has been measured by various tests to be around XX ° C. This property can be clearly marked when distinguishing and separating.
Its solubility is also considerable. It has a certain solubility in common organic solvents, such as ethanol and ether, but it dissolves very little in water. This difference should be carefully considered when preparing and applying. And its chemical stability also needs to be studied carefully. At room temperature and pressure, if there is no foreign object intrusion, it is still said to be stable. However, when encountering strong acid and alkali, or hot topic, it is afraid of biochemical changes, resulting in its original properties being changed. When preparing, storing, and administering N-Phenyl Guanidine Carbonate, the physical and chemical properties cannot be ignored.

Technical Specifications & Labeling

N - Phenyl Guanidine Carbonate, the thing of transformation. To understand its technical quality (product quality), it is necessary to study its properties, methods, and uses.
Its properties, external quality or specific quality, melting and boiling, solubility, etc. are all determined. This is the key. The method is also, according to the step of precision, the raw materials, the reverse parts, the quality, strength, and catalysis must not be lost, and the product can be made.
To the use, or to have a special effect in a certain field. The quality of the product is not good, such as the degree of quality must be certain, and the amount of quality must be controlled. In this way, the joint technology can be used in engineering, scientific research, etc.

Preparation Method

The method of making N-Phenyl Guanidine Carbonate is related to the raw materials and production process, reaction steps and catalytic mechanism. First take an appropriate amount of phenyl Guanidine, which is the key raw material. Then prepare carbonates, and choose their purity and type according to the situation. In the reactor, control the temperature at a suitable value, about [X] degrees Celsius, and put phenyl Guanidine and carbonate in sequence. With a specific catalyst to promote the activity of the active molecule, increase the reaction rate. During this period, closely observe the reaction process, and adjust the temperature and stirring rate in a timely manner. After the reaction is completed, the pure N-Phenyl Guanidine Carbonate is obtained through separation and purification. The production process needs to be precisely controlled at each step, and the proportion of raw materials and the reaction time must be accurate in order to ensure product quality and yield. The catalytic mechanism lies in the catalyst changing the reaction path, reducing the activation energy, and achieving the purpose of efficient synthesis.

Chemical Reactions & Modifications

Modern chemistry has advanced, and many new substances have emerged. In today's discussion of N-Phenyl Guanidine Carbonate, its chemical reaction and modification are really the focus of our research.
Looking at its reaction, it can undergo subtle changes under specific temperature, pressure and catalysis. Contact with various reagents, or combination, or decomposition, all follow the laws of chemistry. The rate of reaction and the purity of the product need to be carefully controlled.
As for modification, it is necessary to increase its characteristics, add additives, or adjust the structure. Hope that its performance will be greatly improved, such as better stability and more suitable activity. After all kinds of attempts, or can get the ideal state, used in many fields, benefit to industry, agriculture, medicine and other industries. Our generation should study diligently, in the path of chemistry, explore its mysteries, seek its refinement, and make progress in the future, and make unremitting efforts for the prosperity of chemistry.

Synonyms & Product Names

Today there is a thing called N-Phenyl Guanidine Carbonate. The synonyms and trade names of this thing also need to be studied in detail. Its synonyms, or other names, are all related to the essence of this chemical substance. As for the trade name, it is the name given by the merchant for its promotion to the market.
Synonyms for chemical substances are like different names in ancient books. Although the names are different, they refer to one thing. Or according to its chemical structure, or according to its nature and use, and have different expressions. Trade names are like store signs, wanting to attract attention and seek wide sales.
Exploring the synonyms and trade names of N-Phenyl Guanidine Carbonate is like exploring the hidden aliases and common names in ancient books. Both of these have important implications in chemical research and business transactions, which cannot be ignored.

Safety & Operational Standards

N - Phenyl Guanidine Carbonate is an important chemical product. Safety and operating practices are of paramount importance during its experimentation and production.
First, it concerns storage. This substance should be placed in a cool, dry and well-ventilated place, away from sources of fire and heat. Due to its chemical activity, improper storage environment or changes in its properties can cause safety hazards. The storage place should be clearly marked, indicating its chemical properties and precautions to prevent accidental contact and misuse.
When operating, the experimenter must wear appropriate protective equipment. Protective clothing protects against possible spills, gloves protect the hands from corrosion, and goggles are indispensable to prevent substances from entering the eyes and causing serious damage to the eyes.
Furthermore, during use, precise operating procedures must be strictly followed. Experimental instruments should be checked in advance to ensure that they are clean and functional. When weighing, it is necessary to use accurate measuring tools to ensure that the dosage is correct. During mixing or reaction, pay close attention to reaction conditions, such as temperature, pressure and reaction time. If the reaction goes out of control, or causes a violent reaction, it endangers the safety of personnel and facilities.
In the event of a leak, do not panic. Unrelated personnel should be evacuated immediately to isolate the leak area. In the case of a small leak, appropriate materials such as sand can be used for adsorption cleaning; in the case of a large leak, an emergency plan should be initiated and a professional should be contacted to deal with it.
Waste disposal should not be ignored. It should not be discarded at will. It should be collected in accordance with relevant laws and regulations and handed over to professional institutions for harmless treatment to avoid pollution to the environment.
In this way, strict follow of safety and operation specifications can ensure the smooth development of N-Phenyl Guanidine Carbonate related work and ensure the safety of personnel and the environment.

Application Area

N - Phenyl Guanidine Carbonate is a unique chemical product with a wide range of application fields and significant effects. In the field of medicine, it can help develop special agents, or can be used to relieve specific disease symptoms, which is of great benefit to human health. In the field of materials science, it can be used as a key additive to optimize material properties, make it more resilient and stable, and meet diverse industrial needs. In agriculture, it may be able to develop new fertilizers or pesticides to promote crop growth and resist pest and disease attacks. With its unique chemical properties, this substance blooms brilliantly in many application fields, such as bright stars illuminating the way forward for related industries, bringing unlimited possibilities and hope for the development of various fields.

Research & Development

I am dedicated to the research of N-Phenyl Guanidine Carbonate. The properties of this substance are unique and are related to the progress of many fields. At the beginning, it was very laborious to explore its structure and composition, and it was necessary to analyze it with precision. Then, study its reaction mechanism and gain insight into its changes under different conditions. After repeated tests, the best synthesis path was identified, and the yield and purity were improved.
I also investigated its application prospects. In the field of materials, it may improve its performance; in medicine, it may have potential effects. Although the research road is full of thorns, I have a firm heart and unremitting research. I hope this achievement can contribute to the development of related industries, open up new horizons, and lead the research and development of this substance to a new course.

Toxicity Research

I have heard all the sages talk about the nature of poisons, which is related to the health of people's livelihood and cannot be ignored. Today there is N-Phenyl Guanidine Carbonate, and our generation should explore its toxicity in detail.
At the beginning of the research, we adopted all kinds of exquisite methods to observe its state in various media and measure its response to various things. Observe the path of its entry into the body, or through the mouth, or through the skin, or through inhalation, all need to be carefully examined.
During the experiment, take all kinds of creatures as models and observe the influence of this thing. Observe the changes in its behavior, diet, work and rest, and analyze the shape of its internal organs and meridians.
After months of work, a lot of empirical evidence has been obtained. N-Phenyl Guanidine Carbonate is indeed toxic, but the depth of its poison varies according to the amount. When the amount is small, it may only cause a little discomfort; when the amount is huge, it endangers life.
Therefore, its use must be cautious, and detailed regulations must be made to prevent its poison from flowing into the world, so as to bless the well-being of all beings.

Future Prospects

Nowadays, N-Phenyl Guanidine Carbonate is unique and has a wide range of uses. Although it is currently under research and development, the future prospects are really exciting.
My generation expects that in the field of medicine, it may become a sharp blade to overcome difficult diseases. With its special structure, it may be able to accurately act on lesions and bring good news to patients. In material science, it is also expected to emerge, endowing materials with new characteristics and making utensils more durable.
And with the deepening of research, the process will be refined and the cost will be controlled. At that time, N-Phenyl Guanidine Carbonate will be widely used in various fields, leading the trend of science and technology, creating future brilliance, and adding a strong color to the well-being of mankind.

Frequently Asked Questions

What are the chemical properties of N-Phenyl Guanidine Carbonate?

N-Phenylguanidine carbonate, this is a special chemical substance. Its chemical properties are unique, with the characteristics of guanidine and phenyl.
In terms of its physical properties, it is often in solid form, or crystalline, with an appearance as white as snow, or slightly colored. Its solubility is quite characteristic, and it may show good solubility in some organic solvents, but its solubility in water is restricted by many factors, such as temperature, pH, etc. At room temperature, the dissolution rate may be relatively slow, and heating may promote its dissolution.
From the perspective of chemical activity, the guanidine group in N-phenylguanidine carbonate has basic characteristics and can neutralize with acids to form corresponding salts. The existence of phenyl groups endows it with certain stability and hydrophobicity. This substance may participate in a variety of organic reactions, such as nucleophilic substitution reactions. Because the nitrogen atom of guanidine group has lone pairs of electrons, it can be used as a nucleophilic reagent to attack suitable substrates. Its stability is also affected by the surrounding chemical environment. When encountering strong oxidants or reducing agents, oxidation and reduction reactions may occur, resulting in changes in its structure and properties.
Furthermore, the thermal stability of N-phenylguanidine carbonate is also an important property. Under heating conditions, when a specific temperature is reached, a decomposition reaction may occur, and the decomposition products vary depending on the specific reaction conditions. This property is of critical significance in some industrial processes or chemical reactions involving high temperature treatment. Strict temperature control is required during operation to ensure the stability of its chemical properties and maintain the expected reaction process and product quality.

What are the main uses of N-Phenyl Guanidine Carbonate?

N-Phenylguanidine carbonate has a wide range of uses. In the field of medicine, it is often used as a raw material for drug synthesis. It has a specific chemical structure and can participate in various reactions to produce drugs with different effects, or has antibacterial and anti-inflammatory properties, which is helpful for the treatment of human diseases.
In agriculture, it also has its uses. It can be used as a component of plant growth regulators to regulate the growth and development of crops, help them take root, bloom and bear fruit, improve the yield and quality of crops, and ensure the abundance of agricultural products.
Furthermore, in the chemical industry, it is an important intermediate for the preparation of special materials. After a series of chemical reactions, polymer materials with unique properties can be generated, which can be used in the manufacture of plastics, rubber and many other products to increase their properties and expand the application range of products.
In the field of research, due to the particularity of the structure, it is often favored by researchers to explore new chemical reaction paths and material properties, promote the progress of chemical science, and provide theoretical and technical support for the development of various industries. All of these all demonstrate the wide range of uses of N-phenylguanidine carbonate and its important value in many fields.

What is the production process of N-Phenyl Guanidine Carbonate?

The process of preparing N-phenylguanidine carbonate is very delicate. The method begins with the selection of materials. When the pure aniline and cyanamide are taken as the initial materials, the quality of the two is the key, and the quality of the final product is related.
The aniline and cyanamide are mixed in a special reactor according to the appropriate ratio. The material of this kettle needs to be resistant to corrosion and good heat conduction. Nitrogen is first used to drive the residual gas in the kettle to create an oxygen-free environment to prevent the material from oxidizing. Then it is slowly warmed to a specific temperature, usually between one hundred and twenty to one hundred and fifty degrees Celsius. This temperature range is determined by years of trial and error, which can promote the reaction speed and efficiency. During this period, the agitator is stirred at a constant speed, so that the materials are blended and the reaction is uniform.
During the reaction, it is necessary to closely monitor the pressure and temperature in the kettle, and the slight difference may cause the reaction to deviate. When the reaction is asymptotically ended, move the product to a cooling tank, slowly cool down, and precipitate crystals. This crystallization is initially formed, and it still contains impurities. It needs to be purified by recrystallization.
When recrystallizing, it is dissolved in a specific organic solvent. The solubility of the solvent to the product changes with temperature, and then the impurities are removed by thermal filtration, and the filtrate is cooled, and the pure N-phenylguanidine carbonate is then crystallized. After drying at low temperature, the moisture is removed, and the finished product is obtained. Its color is white and pure. It can be used in many fields, such as pharmaceuticals, chemical additives, etc This process has been honed and improved, and every step contains the heart of the craftsman, in order to produce the best products.

What are the precautions for N-Phenyl Guanidine Carbonate in storage and transportation?

N-phenylguanidine carbonate is a chemical substance. When storing and transporting, the following things should be paid attention to:
First, the storage environment is the key. This substance should be stored in a cool, dry and well-ventilated place. If the environment is humid, it is easy to cause moisture and deterioration, affecting quality and performance. Therefore, the warehouse should be equipped with suitable humidity control devices to keep the air dry. And the temperature should not be too high, too high temperature or cause chemical reactions, resulting in damage to its stability.
Second, the packaging must be tight. Packaging materials with good sealing performance should be used, such as sealed plastic drums or iron drums lined with plastic bags. This can prevent contact with air and moisture, and avoid oxidation and deliquescence. The relevant warning information and product characteristics should also be clearly marked on the packaging for identification and management.
Third, caution should be taken during transportation. To prevent package damage, avoid bumps and collisions. The means of transportation should be clean, dry and free of other substances that may react with it. At the same time, it is necessary to follow relevant transportation regulations and take protective measures to ensure transportation safety.
Fourth, it should be stored and transported separately from other chemicals. Due to its special chemical properties, if it comes into contact with certain strong oxidants, strong acids, strong alkalis, etc., it may cause severe chemical reactions or even lead to dangerous accidents.
Fifth, fireworks should be strictly prohibited in storage and transportation areas. Some chemical substances in case of open flame or high temperature flammable explosion, although the specific characteristics of N-phenylguanidine carbonate depend on its chemical properties, but adhere to the principle of safety, strictly prohibit fireworks can reduce latent risk.
In short, for the storage and transportation of N-phenylguanidine carbonate, it is necessary to strictly follow the relevant norms and standards, and operate carefully to ensure that personnel safety and material quality are not damaged.

How N-Phenyl Guanidine Carbonate Reacts with Other Compounds

N-Phenylguanidine carbonate, this is a special chemical. It is active and easily reacts with many other substances.
When encountering acid, it is like a warrior facing an enemy and quickly fights against it. The protons in the acid are like arrows, shooting at the basic check point of N-Phenylguanidine carbonate. N-Phenylguanidine carbonate contains nitrogen atoms with lone pairs of electrons, like open arms, eager to hug the proton. When the two meet, the proton is captured by guanidine nitrogen, and then becomes a conjugated acid. The reaction is intense, or gas is generated, or the temperature is changed, such as sodium bicarbonate encountering acid to produce gas. This reaction may also occur in a similar situation, and the product may be used in chemical synthesis or other fields or have other uses.
When encountering alkali, it seems to meet old enemies. The hydroxide ion of the base is brave and attacks N-phenylguanidine carbonate. Phenyl, guanidine and carbonate in N-phenylguanidine carbonate may be impacted by it. Carbonate is like a fragile castle, which is easily breached by hydroxide ions, or causes carbonate decomposition, generating carbon dioxide escape, or forming other carbonates. At the same time, the guanidine structure may also be changed, the electron cloud density on the nitrogen atom is affected, the reaction result is complicated, the product may be a new basic salt, or other nitrogen-containing compounds are formed.
In an oxidizing environment, N-phenylguanidine carbonate seems to be placed in a hot fire. Oxidants are like ferocious beasts, trying to take their electrons. Phenyl and guanidine are both oxidized. Phenyl carbon-carbon bonds, carbon-hydrogen bonds, and nitrogen-nitrogen and nitrogen-hydrogen bonds in guanidine are all coveted by oxidants. Oxidation or cracking of the carbon chain, the change of nitrogen valence state, the formation of quinones, nitro and other oxidation products, the properties of the products are very different from the original, or have stronger oxidation, or have unique performance in specific reactions.
In the reducing environment, it is like ice meets warm sun. The reducing agent is willing to give electrons and N-phenylguanidine carbonate. Carbonate may be reduced to carbon monoxide, carbon, etc., and the nitrogen atom in the guanidine group obtains electrons, the valence state decreases, or new nitrogen-containing reduction products are generated. Such products are in the organic synthesis route or are key intermediates, which can open a new reaction path.