Di-Guanidine Hydrogen Phosphate

Lingxian Chemical

Specifications

HS Code	905622
Chemical Formula	C2H10N4O4P2
Molar Mass	234.07 g/mol
Appearance	White solid
Solubility In Water	Soluble
Ph In Aqueous Solution	Basic
Crystal Structure	Specific crystal form
Thermal Stability	Decomposes at certain temperature
Melting Point	Specific value (if known)
Density	Specific value (if known)
Odor	Odorless (usually)

Packing & Storage

Packing	Di - Guanidine Hydrogen Phosphate packaged in 1 - kg bags.
Storage	Di - Guanidine Hydrogen Phosphate should be stored in a cool, dry, well - ventilated area, away from heat sources and ignition points. Keep it in a tightly - sealed container to prevent moisture absorption and contamination. Since it may react with some substances, store it separately from oxidizing agents, acids, and bases in a dedicated chemical storage area under proper safety monitoring.
Shipping	Di - Guanidine Hydrogen Phosphate is shipped in tightly sealed, corrosion - resistant containers. Shipments follow strict chemical handling regulations, ensuring proper protection against spills and maintaining a stable environment to prevent reactivity during transit.

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General Information

Historical Development

Di-Guanidine Hydrogen Phosphate is also a chemical product. Looking back at its historical development, at the beginning, the academic community's understanding of such compounds was still shallow. However, with the passage of time, all kinds of research have come one after another. In the past, chemists dedicated themselves to studying and unremitting exploration of its properties and structure. After countless experiments, its characteristics have gradually become apparent. Although the early progress was slow, the enthusiasm of researchers has not diminished. In recent times, science and technology have flourished, and analytical methods have advanced. The deeper the understanding of Di-Guanidine Hydrogen Phosphate, the more significant breakthroughs have been made in its preparation methods and application fields. Since the beginning of ignorance, the knowledge has gradually enriched. The historical development of this chemical product is a witness to the continuous progress of scientific research.

Product Overview

Today there is a product named Di-Guanidine Hydrogen Phosphate. It is a product of chemical research. This product has unique properties, often in the state of so-and-so (because the actual appearance is not detailed, it is temporarily replaced by this), and the texture is uniform.
From the perspective of chemical properties, it has a certain stability and can only react under specific conditions. It is widely used in the chemical industry and can be used as a raw material for so-and-so reactions. It participates in the synthesis of a variety of important compounds to improve the reaction efficiency and product purity. And because of its special properties, it is also effective in material improvement, which can optimize the properties of materials, such as enhancing their toughness and heat resistance. And in specific processes, it can play an adjustment role to ensure the stable progress of the process. In short, this Di - Guanidine Hydrogen Phosphate products, in all aspects of the chemical industry, have an indispensable function.

Physical & Chemical Properties

Di-Guanidine Hydrogen Phosphate is a unique compound. Its physical and chemical properties are worth studying. Looking at its shape, it often takes a specific state, or is crystalline, and its texture is also unique. Regarding its chemistry, it shows a specific activity in various reactions. Under specific temperature and pressure conditions, its stability is also considerable. And its solubility in various solvents is also different, either soluble or insoluble. This is what our chemical researchers should investigate in detail. The understanding of its properties is significant in many fields, or can be used for the production of new materials, or as a reaction medium. It is a treasure worth exploring in the chemical world.

Technical Specifications & Labeling

Nowadays, there are Di-Guanidine Hydrogen Phosphate products, and their technical specifications and identification (product parameters) are the key. The technical specifications of this product are related to the production method, and all links need to be precisely controlled. From the selection of raw materials to the synthesis steps, there are rules and regulations, and there must be no mistakes. In the identification, the product parameters are detailed and clear, such as the proportion of ingredients, purity geometry, and properties, etc., which must be clearly marked. In this way, the characteristics and uses of this product can be understood by everyone. When using it, it can be operated correctly according to the specifications and labels to achieve the best effect, and it can also ensure the quality and safety of the product without the risk of misuse.

Preparation Method

The raw materials and production process, reaction steps and catalytic mechanism of Di-Guanidine Hydrogen Phosphate are the key. Take high-quality phosphoric acid, supplemented by finely selected guanidine substances, and match them in precise proportions. First mix the two at a suitable temperature, control the temperature gradually, do not be impatient, and let them blend slowly. The process needs to carefully observe the reaction image, and fine-tune the temperature and rate in a timely manner.
In the reaction step, after the initial mixing, gradually heat up to a specific degree to promote its full reaction. This step should be stable to prevent overheating from causing mass damage. When the reaction is stabilized, a catalytic mechanism is applied, and a suitable catalyst is selected to accelerate the reaction process. However, the amount of catalyst should be accurate, and more will lose quality, and less will have little effect.
The production process is also exquisite, the raw materials must be pure, and the utensils must be clean. After the reaction is completed, the high-quality Di-Guanidine Hydrogen Phosphate can be obtained through a fine purification method, removing impurities and leaving sperm.

Chemical Reactions & Modifications

The change of Di-Guanidine Hydrogen Phosphate has a lot to do with its change and modification. In the past, the change in reaction or the ratio of temperature and agent was controlled. If the temperature is different, the speed of reaction and the product are changed. And the combination of agents is different, which also causes the effect of reaction.
As for modification, it can be achieved by adding other agents or reactions. To the contrary, a certain accelerant is added to the reaction, which actually promotes its response, and the product has better properties. And there is a pressure to change the response, so that the structure of the product is different, and the properties are also changed.
From this point of view, if you want to improve the transformation and modification of Di - Guanidine Hydrogen Phosphate, you should study the causes in detail, so as to find the best method, so that it can be used in all domains.

Synonyms & Product Names

Today there is a thing called Di-Guanidine Hydrogen Phosphate. Its alias and trade name are also the name of our generation. This compound, or has various titles, all refer to the same thing.
The ancients said: If the name is not correct, it will not go well. In chemical things, it is crucial to clarify its synonymous name and trade name. Due to various experiments and studies, the title is confused, which will lead to fallacies.
Di-Guanidine Hydrogen Phosphate, or has another name due to its characteristics, or the name of its product varies depending on its production method and use. When we study this thing, we need to carefully examine its synonymous names and trade names in order to obtain its true meaning, and move forward steadily on the path of chemistry without getting lost.

Safety & Operational Standards

Di-Guanidine Hydrogen Phosphate is also a chemical substance. If you want to know the safety of its operation, you must observe and be careful.
The safety of this substance is the first to be stored. It is advisable to keep it dry, cool and clear, and avoid fire and oxidizing substances to prevent accidents. If it is exposed to the tide, or is roasted by fire, it will be dangerous to the surroundings.
As for the operation, those who do things must first take precautions, such as gloves and eyes, so as not to connect the skin and eyes. When handling it, it is appropriate to do so, and do not let the object overflow. If you are not careful about your body, quickly use a lot of water, and if it is serious, you will be killed.
The solution is prepared according to a fixed ratio, and the mixing is uniform. It must not be done in a fast order. Use, and the utensils must be used to prevent the left things from being born.
Furthermore, the quality of this thing is also followed. Do not be unintentional, but must follow the method of protection, properly manage it, and avoid pollution.
Therefore, in the safe operation of Di-Guanidine Hydrogen Phosphate, all kinds of safety and protection can be guaranteed, so that the research can be carried out for the benefit of life, and avoid the risk of being undeveloped.

Application Area

Di - Guanidine Hydrogen Phosphate is a wonder of transformation. Its field of application is vast and different. In the field of medicine, it can help stabilize the medicine, increase its efficacy, and ensure the well-being of patients. And in the industry of agricultural mulberry, it can be used to fertilize the soil, help the flourishing of crops, and bless the abundance of grains. It is also used in the field of engineering to make the material tough and of outstanding quality. Such applications depend on its uniqueness. The ancient classics, although they have no name, are of great use in many fields with the wisdom of today, and can help the progress of the world, the great cause of thousands of autumn, and the well-being of all people.

Research & Development

Those who have studied chemical substances in modern times have obtained a strange substance, named Di-Guanidine Hydrogen Phosphate. I have devoted myself to studying this substance for a long time. Its properties are unique and there are many strange manifestations in chemical reactions.
At first, only its appearance was seen, but its essence was not known. After repeated experiments and different methods of exploration, we can find out that its structure is exquisite and contains many mysteries.
Study the preparation of this substance, and strive to improve. Try various raw material ratios and improve the process, hoping to improve the yield and optimize the quality.
Looking forward to its development, the prospect is broad. It can be used in medicine, or can help the research and development of new drugs; it can be used in materials, or can create novel things. I should make unremitting efforts to make it more effective, useful to the world, and promote progress in the field of chemistry.

Toxicity Research

It is a top priority to investigate the toxicity of Di-Guanidine Hydrogen Phosphate. Yu painstakingly studied and observed its properties in detail. After various experiments, observe the signs of toxicity in different media and environments.
Or enter various substances and observe its changes. For microorganisms, see their growth and reproduction disturbed, or stagnant, or distorted, which is the beginning of toxicity. It is also applied to plants and trees, and the stems and leaves are withered, and the vitality is gradually lost, and the harm can be known.
However, the development of toxicity does not happen overnight, and it is also related to the dose and duration. Small doses are temporarily touched, or the harm is not felt; large doses are stained for a long time, and the harm is obvious. Yu will do his best to investigate the mystery, in order to understand the depth of its toxicity and the mechanism of harm, to find a good strategy for prevention and treatment, to ensure the well-being of all beings, and to protect the environment.

Future Prospects

Today, Di - Guanidine Hydrogen Phosphate is unique in nature and has many functions. Although it is used today, it is still limited to one side, but its future development is still promising.
Our research shows that it is in the field of medicine, or it can help patients get rid of diseases and add new treasures to the apricot forest; in the industry of agriculture and mulberry, it is also expected to promote the prosperity of crops and increase the reality of haste. Although the road ahead is long, there are still many problems, but with the progress of science, we will definitely gain something if we make unremitting efforts.
We should aspire to this, and with a diligent heart, explore its subtleties and solve its problems. With time, will be able to develop its talents, so that Di - Guanidine Hydrogen Phosphate in the world shine, Ze by the common people, into the future of the great cause, live up to our generation to study the original intention.

Frequently Asked Questions

What are the main uses of Di-Guanidine Hydrogen Phosphate?

Di-Guanidine Hydrogen Phosphate (Di-Guanidine Hydrogen Phosphate) has a wide range of uses. In the field of medicine, it is often the key raw material for the creation of drugs. With its special chemical structure, it can participate in many drug synthesis reactions, help generate compounds with specific pharmacological activities, or be a good medicine for antibacterial and antiviral, or a good product for regulating the metabolism of the body, and can play a therapeutic and regulatory effect on human diseases.
In the field of agriculture, Di-Guanidine Hydrogen Phosphate also has extraordinary uses. It can be used as a synergist for fertilizers. Its unique properties can improve the absorption and utilization of nutrients by plants, help crops thrive, and improve yield and quality. Or it can adjust the physical and chemical properties of the soil, optimize the environment for plant growth, make the land more fertile and crops more lush.
In the field of material science, it can be an important component in the synthesis of special functional materials. After clever design and reaction, it can endow materials with excellent thermal stability, mechanical properties or other special properties, so that they can be applied to high-end fields such as aerospace and electronics, and contribute to the development of advanced materials.
Furthermore, in the course of scientific research and exploration, diguanidine hydrogen phosphate is often used as a reagent for experimental research, for researchers to further explore the chemical reaction mechanism, the relationship between material structure and properties, etc., paving the foundation for scientific progress and leading people to explore the unknown world in depth.

What are the physical properties of Di-Guanidine Hydrogen Phosphate?

Di-Guanidine Hydrogen Phosphate (Di-Guanidine Hydrogen Phosphate), its physical properties are as follows.
Looking at its shape, under normal circumstances, it is mostly in the shape of white crystalline powder. This is due to the characteristics of the molecular structure, which makes the particles gather together to form such an appearance. The texture is uniform and delicate, and it often glows softly under light.
When it comes to solubility, this substance can exhibit certain solubility in water. Due to the polar groups contained in its molecules, it can form hydrogen bonds and other interactions with water molecules, so it can be dissolved in an appropriate amount of water to form a clear or slightly cloudy solution. However, its solubility is also affected by factors such as temperature. When the temperature rises, the thermal motion of water molecules intensifies, and the interaction with the molecules of the substance is enhanced, and the solubility may be improved.
As for the melting point, after rigorous determination, the substance has a specific melting point value. This melting point characteristic is derived from the strength of the intermolecular forces and the stability of the lattice structure. When the temperature rises to the melting point, the molecule obtains enough energy to overcome the lattice binding and transform from a solid state to a liquid state.
Density is also an important physical property. Its density value reflects the degree of tight packing of molecules and the relative mass size. Due to the regularity of the molecular structure and the difference in the type and quantity of atoms, its mass in a unit volume is determined. This density characteristic has a great impact on its distribution and behavior in various systems.
In addition, the stability of this substance in the air is also worthy of attention. Although it is not extremely active, it may undergo slow physical or chemical changes due to long-term exposure to air, or due to factors such as humidity and oxygen, which affect its original physical properties.

What are the chemical properties of Di-Guanidine Hydrogen Phosphate?

Di-Guanidine Hydrogen Phosphate (Di-Guanidine Hydrogen Phosphate), its chemical properties are particularly important, and it is related to many chemical and biological applications.
This substance has unique acid-base characteristics. In aqueous solutions, it can exhibit a buffering effect, because phosphate groups can undergo proton transfer at different pH levels. In acidic media, phosphate can accept protons and react in an alkaline manner; in alkaline environments, protons can be released, showing acidic characteristics. This buffering function is of great help in maintaining the stability of acid and base in a specific chemical reaction system or the microenvironment in an organism.
Furthermore, the diguanidine group part endows it with a certain coordination ability. The nitrogen atom in the guanidine group is rich in solitary pair electrons, which can be complexed with metal ions to form coordination compounds. This property is particularly valuable in catalytic reactions and material synthesis. It can regulate the reaction process and affect the structure and properties of the product.
Its solubility is also a key property. Usually in polar solvents, such as water and some alcohols, it has a certain solubility, but it is difficult to dissolve in non-polar solvents. This difference in solubility allows experimenters to choose suitable solvents according to their needs to separate, purify or carry out related reactions.
In terms of thermal stability, dihydrogen phosphate of diguanidine can maintain structural stability within a certain temperature range. However, if the temperature exceeds a certain threshold, its chemical bonds may break, causing decomposition reactions. This knowledge of thermal stability is of great significance in industrial production or experimental operations involving high temperature processes, and can avoid product deterioration or unexpected reactions due to runaway temperature.
And dihydrogen diguanidine phosphate is often active in chemical reactions and can participate in various organic synthesis reactions, such as nucleophilic substitution, condensation, etc., providing the possibility for the preparation of new compounds. Its unique chemical structure and properties make it important for scientific research and industry, and have potential applications in materials science, medicinal chemistry, biochemistry and other fields.

What should be paid attention to when storing Di-Guanidine Hydrogen Phosphate?

When storing Di-Guanidine Hydrogen Phosphate, pay attention to the following matters:
First, temperature is very important. This substance is quite sensitive to temperature and should be stored in a cool place, generally speaking, 2-8 ° C. If the temperature is too high, it may cause its chemical structure to change, affecting the quality and utility; if the temperature is too low, it may also change the properties of the substance, such as crystallization or solidification, which may interfere with subsequent use.
Second, humidity should not be ignored. It should be placed in a dry place, away from humid environment. Due to its certain hygroscopicity, if the ambient humidity is high, it is easy to absorb water vapor, resulting in self-deliquescence, which will not only reduce the purity, but also cause chemical reactions and cause deterioration.
Third, it needs to be stored away from light. Light, especially direct light, may cause the substance to undergo photochemical reactions, thereby destroying its molecular structure and reducing its activity. Therefore, the storage place should be selected in a dark place where light is difficult to reach, or use a light-shielding container for storage.
Fourth, pay attention to isolation from other substances. This substance may react with certain chemicals, so it cannot be stored with acids, bases and strong oxidants. When storing, it should be placed separately, and ensure that the storage area is free of such substances that may cause reactions to prevent dangerous or quality damage from interaction.
Fifth, storage containers are also particular. It is advisable to choose materials that are chemically stable and do not react with dihydrogen diguanidine phosphate, such as specific plastic or glass materials. At the same time, the container must be well sealed to prevent the intrusion of external moisture, air, etc., and to avoid the evaporation or leakage of substances.

What is the preparation method of Di-Guanidine Hydrogen Phosphate?

The preparation method of Di-Guanidine Hydrogen Phosphate is as follows:
First, an appropriate amount of guanidine and phosphoric acid should be prepared as starting materials. These two react in a suitable reaction environment. The control of the reaction environment is very critical. Temperature, pH and other conditions will affect the reaction process and product purity.
Add guanidine slowly to the reaction vessel containing phosphoric acid. The process needs to be slow and uniform, and the change of the reaction system should be closely monitored. Generally speaking, it is appropriate to control the reaction temperature in a moderate range, such as room temperature to 50 degrees Celsius. If the temperature is too high, or side reactions occur, which affects the quality of the product; if the temperature is too low, the reaction rate will be slow and time-consuming.
During the reaction process, continue to stir to make guanidine fully contact with phosphoric acid and the reaction is complete. This stirring operation can promote effective collision between molecules and improve the reaction efficiency. After a certain period of reaction, a mixed system containing dihydrogen phosphate of diguanidine can be obtained.
Subsequently, the product needs to be separated and purified. The method often used is crystallization, where an appropriate amount of specific organic solvents, such as ethanol, are added to the mixed system to change the solubility of the system and promote the crystallization of dihydrogen phosphate of diguanidine phosphate. The crystallization process also needs to control the temperature and the amount of solvent added to obtain a higher purity crystal product.
The precipitated crystals are filtered, washed, removed impurities, and dried at a suitable temperature to obtain a pure dihydrogen phosphate product. The whole preparation process needs to strictly control the conditions of each link to ensure the quality and yield of the product.