Guanidine Phosphate Monobasic

Lingxian Chemical

Specifications

HS Code	966069
Chemical Formula	C2H8N3O4P
Molar Mass	169.1 g/mol
Appearance	white crystalline powder
Solubility In Water	soluble
Ph Aqueous Solution	acidic
Melting Point	decomposes
Odor	odorless
Stability	stable under normal conditions

Packing & Storage

Packing	Guanidine Phosphate Monobasic packaged in 1 - kg bags for convenient handling.
Storage	Guanidine Phosphate Monobasic should be stored in a cool, dry place. Keep it in a tightly sealed container to prevent moisture absorption, as it may react or clump. Avoid storing near heat sources, flames, or incompatible substances. Appropriately labeled storage helps in easy identification and safe handling, ensuring the chemical's integrity for various applications.
Shipping	Guanidine Phosphate Monobasic is shipped in well - sealed containers. Precautions are taken to prevent moisture and contamination. Shipment follows strict chemical transport regulations to ensure safe transit due to its chemical nature.

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General Information

Historical Development

Guanidine Phosphate Monobasic is also a chemical product. Its historical evolution was unknown to the world at the beginning. However, science and technology are gradually emerging, and researchers pay attention. In the past, many wise people have devoted themselves to exploring its nature and function.
At the beginning, the cognition was still shallow, and only a little bit of knowledge was known. After repeated experiments, its characteristics gradually became clear. Or in a certain experiment, a new phenomenon was accidentally obtained, which triggered in-depth investigation. After years of study, its application field has gradually widened, from the initial ignorance and temptation, to today's multi-industry function. Many craftsmen have made this product unremitting in the long river of history, from the end to gradually become important, which is actually a manifestation of scientific and technological progress.

Product Overview

Today there is a product called "Guanidine Phosphate Monobasic". This material is unique and unique in the field of chemistry. It is a white crystalline powder with stable properties and soluble in water. It is often used as a key agent in many chemical reactions.
Its preparation method is fine and rigorous. It can only be obtained through specific reaction steps and precise conditions. It is widely used in industrial production and scientific research experiments. It can be used as a catalyst or as a basis for synthesis, helping progress in many fields.
This "Guanidine Phosphate Monobasic" is a powerful material in the chemical world. In the future exploration and application, it will definitely be able to bring out its brilliance, add bricks to scientific research and industry, and promote it to flourish.

Physical & Chemical Properties

Guanidine Phosphate Monobasic material, its physical and chemical properties are particularly important. Looking at its shape, under normal conditions, it may be in a specific state, or crystalline, and the texture may have certain characteristics. Its color, or clear, or a slight color. In terms of its solubility, it varies in various solvents, and it may have a certain solubility in water, which is related to the interaction between its molecular structure and water molecules.
In terms of chemical properties, it has a specific chemical activity and can react with various substances under specific conditions. In case of encountering a certain type of reagent, it may cause wonderful chemical changes, which is determined by the nature and activity of its chemical bonds. The study of its physical and chemical properties is of great significance in the fields of chemical engineering, medicine, etc., and can lay a solid foundation for related applications.

Technical Specifications & Labeling

Guanidine Phosphate Monobasic is very important to our chemical research. Its technical specifications and identification (commodity parameters) should be determined in detail.
Looking at its technical specifications, the composition must be accurate, the purity must reach the best state, and the impurity content must be strictly controlled at the fine. The crystal form is regular and the particle size stops evenly, so that it can be used for all kinds of purposes. And in different temperature and humidity environments, its physical and chemical properties should be stable and unchanged.
As for the logo (commodity parameters), the name is clear, and the molecular formula and molecular weight are conclusive. The packaging is detailed, indicating the preservation method and the importance of use, so that the user can see it at a glance, and it is safe to use. In this way, we meet the needs of our chemical research to promote the good use and refinement of this product.

Preparation Method

"Method for making mono-hydrogen phosphate of guanidine"
To make mono-hydrogen phosphate of guanidine, the selection of raw materials is crucial. The first step is to prepare pure guanidine, supplemented by an appropriate amount of phosphoric acid, and the two are the basis. In the production process, guanidine is first dissolved in an appropriate amount of solvent, and phosphoric acid is added dropwise in a mild state. During this time, the temperature should be controlled, and it should not be overheated or overcooled to prevent side reactions.
In the reaction step, when stirring slowly to make the two fully blend, the solution is gradually clarified, that is, the initial signs of reaction. When the reaction is stable, a specific catalytic mechanism is used to accelerate the reaction process. A mild catalyst can be selected to catalyze at a suitable temperature to
After the reaction is completed, through fine separation and purification, impurities are removed to obtain pure guanidine phosphate monohydrogen salt. The product obtained by this method has good purity and can be used in many fields.

Chemical Reactions & Modifications

Guanfu Guanidine Phosphate Monobasic, in the field of chemistry, its reaction and modification are of great importance to our generation. The beauty of its reaction is like a change in the universe, which affects the whole body. Or decompose when heated, or change in acid, this is its inherent quality.
To change its properties, you need to observe the structure of its molecules and explore the reason for its bonding. If you apply it skillfully, you may be able to rejuvenate the substance. For example, choose an adaptant to touch it, and control the temperature and pressure to adjust its change. Make the reaction follow the direction I want, and get the result of excellent performance.
We should make the best use of its properties to achieve the purpose of modification, and contribute to the advancement of chemistry and industry.

Synonyms & Product Names

"Guanidine Phosphate Monobasic"
There is a thing today, called "Guanidine Phosphate Monobasic", Chinese translation of Guanidine Phosphate Monobasic. There are many things in the world with the same name, and the names of commodities also have their own names.
This potassium guanidine phosphate is widely used in the field of chemical industry. It has different names in cities due to differences in preparation or poor quality. However, its essence is this thing. Although the name is different, the nature is the same.
Like the ancient medicines, there are also those with the same name but different reality, and those with the same reality but different names. Today's potassium guanidine phosphate is distinguished by its differences, or marked with the name of its characteristics, or attached with a unique name. However, the root cause is potassium guanidine phosphate. Those of us who are learners should distinguish its similarities and differences, understand its essence, and not be confused by the name of complexity. In this way, we can move forward steadily on the road of chemistry and explore its true meaning.

Safety & Operational Standards

The safety of guanidine phosphate
Those who operate guanidine phosphate
, also need to use chemical products. If you want to know the safety of its operation, you need to investigate it.
When this product is stored in the warehouse, it is suitable to avoid dryness and communication, to avoid water and fire, and to prevent exposure. If it is sensitive or damp, it will be damaged when it is on fire, so be careful. Place it in a secret device to avoid mixing with foreign objects, so as to prevent the risk of melting.
When operating it, first fix the anti-damage equipment. Wear the clothes for the eyes and anti-damage gloves to prevent it from connecting to the muscles and entering the eyes. If you accidentally dip it, wash it with a lot of water quickly, and the severe one will be treated immediately.
When used, act according to the measure of precision, and do not lose too much and lose too much. The environment of operation must be well-handled, so as to prevent its smell from gathering, and people from breathing. Use, clean and operate, do not leave.
If there is any leakage, first remove the fire source, and clear it at the next speed. A small amount of leakage, collect it with adsorbed matter; a large amount of leakage, block it and properly handle it, do not contaminate the environment.
In the case of guanidine phosphate, the safe operation of guanidine phosphate is generally good, and it is safe for the person and the environment.
Do not abide by it, so as to avoid the same danger, and the benefits of chemical research and use.

Application Area

Guanidine Phosphate Monobasic is a chemical substance. Its application field is quite wide. In the field of medical pharmaceuticals, it can help drug synthesis, or be a key raw material to increase the efficacy of drugs and stabilize their properties. In biochemical research, it is often used as a buffer to maintain the acid-base balance of the reaction system and ensure the smooth progress of biochemical reactions. In material science, or participate in the preparation of special materials, endow materials with unique properties. Such as preparing materials with specific adsorption or stability to meet different needs. From this point of view, Guanidine Phosphate Monobasic is useful in various fields and has contributed to the development of various industries.

Research & Development

Guanfu Guanidine Phosphate Monobasic is becoming more and more important in the field of our chemical research. At the beginning, our understanding of it was still shallow, and we only knew its basic nature. However, after years of research, many wonders began to emerge.
After repeated experiments, I and my colleagues have observed the changes in its reaction and explored the subtleties of its structure. Under different conditions, observe the changes in its properties and the differences in its properties. Finally, we have found that it has extraordinary application potential in specific fields.
We are also committed to expanding its application, hoping to be able to extend the benefits of this research. From the micro of the laboratory to the large of industrial practicality, we strive to make progress. With unremitting efforts, we hope that this achievement can contribute to the development of chemistry, open a new chapter, and bloom brilliantly in the future research and development.

Toxicity Research

Yu Taste is dedicated to the toxicity research of chemical substances, and recently focused on Guanidine Phosphate Monobasic. Toxicity research is related to the safety of living beings and the stability of the environment, and is of utmost importance.
Detailed investigation of Guanidine Phosphate Monobasic to explore its effects in different environments and doses. After various experiments, observe its impact on the physiological function and cell structure of organisms. Observe whether it comes into contact with other substances, whether there is any abnormality, or the toxicity is increased or decreased due to the generation of new substances.
Although the research has not been fully completed, there are already clues. It is known that at high concentrations, it has the ability to damage some biological cells or hinder their normal metabolism. However, in order to clarify its details, it is still necessary to study it carefully, collect data, and analyze it carefully, hoping to be able to fully understand its toxicity, so that the world can take precautions when using this thing, avoid disasters, and protect the Kangtai of all things.

Future Prospects

Guanfu Guanidine Phosphate Monobasic, although it has been made now, its future development is still promising. In today's world, science and technology are changing day by day, and in the field of chemical industry, research is not limited.
It is expected that in the future, it will be able to improve the preparation method more. Or it can simplify its complicated steps, reduce its cost, increase its yield, and make this product more widely used. And it may have new paths in the fields of medicine and materials. On medicine, it may help the research of new agents to help more patients; among materials, it may be able to add novelty to create strange materials.
The road ahead may be difficult, but with the diligence of today's researchers and the progress of science and technology, I believe that its future will be bright, adding luster to the well-being of the world, and achieving new heights in various applications.

Frequently Asked Questions

What are the main uses of guanidine phosphate (mono-base)?

Lactose (monosaccharide) is widely used in the human body. Its primary use is to supply energy. Lactose enters the body and is hydrolyzed into galactose and glucose through the action of enzymes. Both are important energy sources for cell metabolism and can be used for various things in the body, such as muscle movement, nerve conduction, cell synthesis, etc., to supply the energy they need.
And lactose can promote the growth and reproduction of beneficial bacteria in the intestines. Beneficial bacteria such as intestinal bifidobacteria can use lactose to produce acid, making the intestinal environment acidic. This environment can not only inhibit the growth of harmful bacteria, but also help the absorption of minerals such as calcium, iron, zinc, etc., which is beneficial to human health and has many benefits.
Furthermore, lactose is particularly crucial in the development of the nervous system. Galactose produced by its hydrolysis is an important raw material for the formation of nerve cell membranes and cerebrosides, and is indispensable for the normal development of the infant's brain and nervous system. Without it, the development of the nervous system may be hindered, affecting the development of intellectual and cognitive abilities.
In the food industry, lactose is also very useful. Because of its mild sweetness and good solubility, it is often used in the manufacture of dairy products, baked goods, candies, etc. It can increase the taste and flavor of food, and improve the texture and shelf life of food. For example, in milk powder, lactose is an important carbohydrate, which can simulate the composition of breast milk and provide suitable nutrition for infants.

What are the physical properties of guanidine phosphate?

Lactose (monosaccharide) has unique physical properties. Lactose is white in color and like a fine powder, often in the form of crystals, with a fine and loose texture.
Lactose is hygroscopic and can absorb water vapor in the air at high humidity. This property makes it suitable as a hygroscopic agent in some preparations. However, its hygroscopicity is slightly weaker than that of glucose. During production and storage, it is necessary to properly control the ambient humidity to prevent deliquescence.
The solubility of lactose also has characteristics. It is soluble in water, but the solubility is not very high. It dissolves slowly in cold water. If heated, the dissolution rate is accelerated. This property makes it crucial to control the dissolution conditions when lactose is used in the pharmaceutical, food and other industries.
Furthermore, lactose has a certain sweetness, but its sweetness is only about one-sixth that of cane sugar. This mild sweetness makes it suitable for products that do not require high sweetness and pursue natural flavors, such as some infant foods, which not only provide a little sweetness, but also do not over-stimulate the tender taste.
The density of lactose is relatively stable. This physical constant is of great significance in the mixing and granulation of the production process, which is related to the uniformity and stability of the product. Its fluidity is acceptable, and it can be carried out more smoothly during material transportation and sub-packing operations, reducing material blockage and accumulation.
To sum up, lactose (monosaccharide) has important uses in many fields due to its unique physical properties. Its properties such as color, state, hygroscopicity, solubility, sweetness, density and fluidity are interrelated and affect each other, laying the foundation for Product Research & Development and Production in related industries.

What are the chemical properties of guanidine phosphate (single base)?

Lactose (monosaccharide) has unique chemical properties. Its color is pure and white, often crystalline, and it is quite pleasing to the eye.
Lactose is soluble in water and can slowly melt in it at room temperature, just like ice and snow melting when warm. However, its solubility is not very high, compared with other things, it has its own degree.
And lactose has optical rotation. Under light, it can rotate the plane of polarized light, which is one of its characteristics.
As for its chemical activity, the aldehyde group of lactose has a certain degree of reduction. It can react with many reagents, such as mixing with Feilin reagent. After heating, it can find the precipitation of brick red, just like the red frost and snow in the fire. This is one of the methods for detecting lactose.
And lactose can be hydrolyzed. Under suitable conditions, under the action of enzymes or acids, it can be cleaved into glucose and galactose. Both of these are nutrients that can be used by the human body and supply energy for the movement of life. Just like firewood in a fire, it is indispensable.
Furthermore, lactose is quite stable in the air, not easy to be oxidized, and it is difficult to react with common gases. It is just like being noisy and quiet, so it can be stored for a long time for emergency needs. This is the chemical properties of lactose (monosaccharide).

What are the production methods of guanidine phosphate (single base)?

The method of making an acid anhydride (anhydride) includes the following methods:
One is the water method. If there is an acid containing a carboxyl group, the acid anhydride can be obtained by adding water or using water to make it water. For example, acetic acid, under the action of water, the molecule loses a molecule of water and can form acetic anhydride. The principle of this reaction is that the atom of another carboxyl group in the carboxyl group is combined with water under water, and the molecules are rearranged to form an acid anhydride.
The reaction method of its diacyl-carboxylic acid. Mixing with acyl-carboxylic acid, the two can generate a nucleus-substituted reaction. For example, acetyl chloride-acetic acid reaction, the chlorine atom is replaced by a carboxylate to form acetic anhydride. In this reverse process, the carbonyl carbon in the carboxylic acid is attacked by the charge of the carboxylic acid, and the chlorine is removed to remove the group, and the acid anhydride is formed.
Its trienone-carboxylic acid inverse method. Entenone has high inverse activity, and its carboxylic acid meets, which can quickly generate addition inverse. Such as vinyl ketone-acetic acid inverse, vinyl ketone-acetic acid inverse, one end is the atomic phase of the carboxyl group, and the other end is the carbonyl-carbon phase of the carboxylic group, to generate acetic anhydride. This inverse takes advantage of the incompatibility of ketenes and the acidity of carboxylic acids to skillfully synthesize acid anhydrides.
Its four-acid anhydride synthesis method. For some specific polycarboxylic acids, under suitable conditions, it can generate molecules. Water can react to form acid anhydrides. For example, butene diacid, adding a carboxyl group to water, forms butene dianhydride. This inverse group is due to the characteristics of the molecule, and the carboxyl groups interact under energy to form a fixed acid anhydride.

What are the precautions for guanidine phosphate (single base) during storage and transportation?

For tannic anhydride (mono-anhydride), many taboos should be paid attention to during storage and transportation.
Tannic anhydride is sensitive and afraid of moisture. If it is placed in a humid place, water vapor will invade it, which is easy to cause qualitative change and reduce efficiency. Therefore, a dry place must be selected during storage, and the packaging must be tight to prevent moisture from entering.
Its nature is also afraid of heat. Under high temperature, tannic anhydride is prone to change, or cause decomposition. It is a place for storage, and the temperature should be controlled in a moderate area. Avoid heat, fire and candles, and must not be near heaters or hot sun exposure.
When transporting, the package packaging is extremely important. When wrapped with tough materials, it should be properly protected to prevent it from being shaken or pressed. If it is too bumpy on the way, or under heavy pressure, it may cause damage to the container and leakage of tannic anhydride.
And tannic anhydride may be in danger of offending others. When transporting and storing, do not be in the same place with corrosive or oxidizing substances. If these substances meet it, it is easy to cause chemical reactions, which will harm the quality of tannic anhydride.
Furthermore, when handling, be careful. Handle with care and do not touch it. Practitioners also need suitable protective gear, such as gloves, masks, etc., to prevent tannic anhydride from touching the skin, eyes, and injuring the body.
In short, the storage and transportation of tannic anhydride, moisture prevention, temperature control, suitable packaging, and careful handling are all important and cannot be ignored, so as to ensure its quality and effectiveness.