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Sulfonic Acid Series Sulfamic Acid Series Guanidine Series

Sulfonic Acid Series

Sulfamic Acid Series

Guanidine Series

Guanidine Chloride

Specifications

HS Code	437516
Name	Guanidine Chloride
Chemical Formula	CH6ClN3
Molar Mass	95.53 g/mol
Appearance	White crystalline solid
Odor	Odorless
Solubility	Highly soluble in water
Melting Point	203 - 204 °C
Boiling Point	Decomposes
Ph	Neutral in solution
Density	1.354 g/cm³
Hygroscopicity	Hygroscopic

As an accredited Guanidine Chloride factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

Packing & Storage

Packing	500g Guanidine Chloride in a tightly - sealed plastic bottle for chemical use.
Storage	Guanidine chloride should be stored in a cool, dry place away from heat sources and direct sunlight. Keep it in a tightly - sealed container to prevent moisture absorption, as it is highly soluble in water. Store it separately from incompatible substances, such as oxidizing agents. A well - ventilated storage area helps avoid the build - up of harmful vapors.
Shipping	Guanidine chloride, a chemical, is shipped under strict hazardous material regulations. It is carefully packaged in corrosion - resistant containers to prevent leakage, and transported with appropriate safety measures by specialized carriers.

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General Information

Historical Development

Guanidine Chloride is also a chemical substance. It began to appear between research and development, and was not deeply understood at the beginning. However, as the years passed, various sages continued to study its properties and uses.
In the past, scholars only knew a little about it, but it was not subtle. After several generations, experiments were accumulated to know its ability to denature proteins, to dissolve molecular torn, and to explore structural mysteries.
Since the discovery of this power, its use has gradually expanded. In the field of biochemistry, it helps to analyze the secrets of proteins; in the road of medicine, it also has its implications, either for research or for formula.
Over the years, Guanidine Chloride's research has deepened and its application has proliferated, making significant contributions to the advancement of science. It is also an indispensable material for chemistry and biology today.

Product Overview

In the genus of guanidine salts, there is guanidine chloride, and its properties are very different. This agent is like a crystal powder, the color and white matter are pure, and it can be dissolved in various liquids. In biochemical things, the function is quite good. It can dissolve the knot of proteins and make them form, so as to analyze their properties. In protein research, it helps a lot. Or it is used in the extraction of nucleic acids, which can break the wall of cells, remove impurities and keep pure, and obtain the essence of nucleic acids. In industry, it is also used, which helps the production of chemical industry. The method of its preparation is through a special way, combining various raw materials, controlling temperature and pressure, and then obtaining this product. Guanidine chloride is a useful material in scientific research and industry, and is actually an important agent in biochemical

Physical & Chemical Properties

Taste and hear of chemical things, all have their physical and chemical properties. Today there are things called Guanidine Chloride, and their properties are specific. Physically speaking, it is a white crystal, like frost and snow, with hygroscopicity, easy to deliquescence in the air, just like a thirsty person seeking water, quickly dissolving in water, and the solution is clarified. In terms of chemical properties, it is strongly alkaline, like a rigid person, reacts when it encounters acid, and between compounds, new things are born. It has a wide range of uses in chemical things, or is an agent for protein denaturation, can change the shape of proteins, or in the field of medicine, and also has its merits, helping to develop and become a good recipe for the world. Examining its physical and chemical properties, it is actually a chemical treasure, which is of great use in all industries, and must be studied carefully.

Technical Specifications & Labeling

Today there is a name "Guanidine Chloride", which is widely used in industry and scientific research. In terms of its technical specifications, the purity must be extremely high, and the impurity content must be fine. As shown by chemical analysis, the content of its main components should be not less than a specific proportion to meet the standard.
Looking at its product parameters, the traits should be specific color states, and under specific conditions, the stability is good. The method of testing must be based on precise procedures and instrument measurement, and there must be no mistakes. From the selection of raw materials to the control of the process, there are strict regulations. The raw materials must be of high quality, and the process must also precisely control the temperature, duration and other factors to ensure that the quality of the product is the same, and it meets the requirements of technical specifications and labels (product parameters) before it can be used.

Preparation Method

If you want to make Guanidine Chloride, you must study its raw materials and production process, reaction steps and catalytic mechanism in detail. The selection of raw materials should be pure and easy to obtain, such as cyanamide and ammonium chloride, which meet and go to the reaction together.
At the beginning of the reaction, cyanamide and ammonium chloride are placed in the reactor in an appropriate ratio, and an appropriate amount of solvent is added to help the two blend. Heating up to an appropriate temperature, just like the warm sun in spring, prompts the reaction. This process requires careful regulation of temperature and time. If the temperature is too high, the reaction will be excessive, and if it is too low, the progress will be slow.
Catalytic mechanism cannot be ignored. Introducing specific catalysts, such as a metal salt, can make the difficult easier and speed up the reaction pace. After the reaction is completed, it is filtered, distilled and crystallized in sequence to obtain guanidine salt products. In this way, the process is rigorous and step by step, before the fine guanidine salt can be prepared.

Chemical Reactions & Modifications

Guanfu guanidine chloride, its transformation and modification of the wonderful, is the realization of the main. This substance in the chemical reaction, often in a specific state.
At the beginning, guanidine chloride in contact with other substances, the chemical reaction speed and intensity, such as ignition ignition, immediate attack. The change of the force between molecules, the clutch of atoms, all according to the law of chemistry. However, this situation is very important, the temperature and pressure of the difference, can be easy to its effect.
Furthermore, it is not easy to change its nature. Try it with various techniques, or add other agents, or adjust temperature and pressure. There is a catalytic method to rearrange its molecules and obtain new guanidine chloride, which is of great use in the fields of medicine and industrialization. The change of its properties is like the carving of jade, and the brilliance of the tool is enhanced.
Therefore, the transformation and modification of guanidine chloride should be studied, just like exploring the seclusion and secrets, hiding new machines step by step, adding bricks and tiles to the prosperity of the chemical industry, which cannot be ignored.

Synonyms & Product Names

There are many types of chemical products with different functions. Today, there is one thing called Guanidine Chloride, which is quite useful in various fields.
Guanidine Chloride is also known as Guanidine Chloride. Or guanidine salt chloride, or other similar names. It is a commodity, and it shows its ability in the chemical and pharmaceutical industries. In the chemical industry, it can be used as an auxiliary agent for special reactions to promote smooth reactions; in medicine, it can be a key raw material for drug synthesis, helping to develop new drugs.
Although the names are different, their essence is the same. They are all chemical treasures, with their unique characteristics, used by human beings, shining in various industries, promoting the progress of science and technology, and the prosperity of society.

Safety & Operational Standards

"Regulations for the Use of Guanidine Salts"
Guanidine salts are also chemical agents. In experiments, they are widely used, but they cannot be ignored for their use and operation.
Fuguanidine salts have unique properties and have the ability to denature proteins. Although they are scientific research tools, they must be used with caution. Users must be clear about their nature, abide by the rules, and avoid risks.
Use guanidine salts, when they are clean and clean, to prevent impurities and mess with their quality. When weighing, the accuracy is important, and the difference is tiny, but thousands of miles. When it is dissolved, the water temperature and order are all important. It is advisable to slowly pour guanidine salt into the solvent, and stir and dissolve, so as not to cause sudden accumulation and cause perverse reactions.
Where guanidine salt is stored, it should be cool and dry, far from fireworks and heat, to avoid the risk of decomposition and explosion. When taking it, it should be well protected. Wear protective clothing, goggles, and gloves. Do not touch the body, enter the eyes, or inhale the lungs, so as not to hurt the skin and damage the viscera.
After the experiment is completed, the residual guanidine salt and waste liquid should not be discarded indiscriminately. When it is handled in accordance with regulations, it should be used to prevent pollution of the environment and harm to life.
In short, the use of guanidine salt is conducive to scientific research and academic development. However, it is Following this path, we can avoid disasters, ensure safety, and make the best use of guanidine salt. The road to scientific research will be smooth and secure.

Application Area

Guanidine chloride has an outstanding effect in the field of various uses. In the field of biochemistry, it is often used as a protein depolymerization agent. Protein, the cardinal of biology, its conformation is related to the integrity of function. Guanidine chloride can break the force between proteins and change its conformation, so as to analyze the properties and functions of proteins.
In the road of medicine, it also has its use. It can help dissolve insoluble drugs and increase their effectiveness. And in the industry of virus inactivation, guanidine chloride can destroy the structure of the virus and prevent its infection.
In the chemical industry, it can be used as a cleaning aid and has strong cleaning power. The color fastness and softness of fabrics are also good because of this. Looking at its wide use, those who are sincere and good at things have made great contributions in biochemical, pharmaceutical, chemical and other fields.

Research & Development

Today there are researchers who focus on Guanidine Chloride. He studied this thing in detail, and tried his best to understand its nature and use. On the road of experimentation, carefully handle it, observe its changes, and record its data in order to seek truth.
I know that this thing is used in many fields, and it may be of great use. Therefore, I explore its application, try it in medicine, chemical industry, etc., hoping to make breakthroughs and promote its development. Despite difficulties and obstacles, I have not given up.
Chang Si The ancients said: "With perseverance, gold and stone can be carved." So I persevered in this, hoping that over time, I would achieve success, so that the Guanidine Chloride thing could be used by the world, benefit people, and achieve the grand ambition of research and development.

Toxicity Research

The toxicity of Guanidine Chloride is studied today. Its strong nature is often used as a protein-breaking agent in biochemical experiments. However, if it is used inadvertently, it will cause endless disasters. Looking at the past, if you accidentally touch it, the skin will burn and fester, and it will be difficult to heal; if you eat it by mistake, the viscera will be damaged, endangering your life.
We study the toxicity of this substance and observe its effect on biological tissues in detail. In vitro experiments, we test it with cells. When the concentration is high, it shows that the apoptosis rate. In animals, after entering the body, the function of the organs will gradually be disrupted. Although it is useful in biochemical research, the risk of toxicity cannot be prevented. After the research is completed, it should be carefully stored and used, and rules and regulations should be established to ensure the safety of everyone, so as not to cause poisoning.

Future Prospects

The product of guanidine salt chloride is gradually becoming clear in today's research, but its future development is still promising. Today's researchers have tried to explore its nature and study its application in various fields of medicine and biochemistry. Although some progress has been made, the road ahead is still far away.
Looking to the future, we may be able to make it more refined, so that it is pure and high-quality, widely used and effective. In medicine, or as a new agent for treating diseases, it can relieve the suffering of diseases; in biochemistry, or to help research to deepen, and to clarify the mystery of life. Although the road is blocked and long, the researchers' hearts are firm, and they hope to use the work of time to achieve brilliant results. The development of guanidine salt chloride has an unprecedented grand scene, benefiting the world, and the merit is in the future.

Where to Buy Guanidine Chloride in China?

As a trusted Guanidine Chloride manufacturer, we deliver: Factory-Direct Value: Competitive pricing with no middleman markups, tailored for bulk orders and project-scale requirements. Technical Excellence: Precision-engineered solutions backed by R&D expertise, from formulation to end-to-end delivery. Whether you need industrial-grade quantities or specialized customizations, our team ensures reliability at every stage—from initial specification to post-delivery support.

Frequently Asked Questions

As a leading Guanidine Chloride supplier, we deliver high-quality products across diverse grades to meet evolving needs, empowering global customers with safe, efficient, and compliant chemical solutions.

What are the main uses of guanidine chloride?

Boron xenon halide is widely used. Boron xenon halide is important in many fields.
In the field of chemical industry, it is often a catalyst. It can promote the rate of many chemical reactions, reduce the energy required for the reaction, and make chemical production more efficient. For example, in the reaction of organic synthesis, boron xenon halide can lead the reaction to the desired product, increasing the purity and yield of the product. Due to its unique electronic structure, it can interact ingeniously with the reactants and change the way of chemical reactions.
In materials science, boron xenon halide also plays a key role. It can be used to prepare special materials, such as materials with special optical and electrical properties. Or can adjust the crystal structure of the material, so that the material has special physical properties to meet different needs. For example, the preparation of special glasses for optical instruments, boron xenon halide may optimize the optical properties of the glass, making it better light transmittance and less dispersion.
In the electronics industry, it may participate in the preparation of semiconductor materials. It can precisely regulate the electrical properties of semiconductors, affect the concentration and mobility of carriers, and then improve the performance of semiconductor devices. In delicate processes such as chip manufacturing, the precise use of boron xenon halide is related to key indicators such as chip running speed and power consumption.
In the path of scientific research and exploration, boron xenon halide is often a powerful tool for studying the mechanism of chemical reactions. By observing the process and results of reactions, researchers can gain insight into the microscopic nature of chemical reactions and provide empirical evidence for the improvement and expansion of chemical theory.
In summary, boron-xenon halides play an indispensable role in many aspects of chemical industry, materials, electronics and scientific research, promoting the development and progress of various fields.

What are the effects of guanidine chloride on the environment?

Haze oxides are a huge shadow in the environment. Most of these pollutants come from work and tail, etc. They gather in the air, which can cause great energy loss, not blocking people who travel, and heavy air, air and other traffic orders.
Furthermore, haze oxides also pose a great danger to the health of organisms. If people are exposed to this pollution, the respiratory system will be the first to suffer from coughing, asthma, and even serious diseases such as lung cancer. For plants, these pollutants are attached to the surface, preventing their photosynthesis, causing blockage of growth, and preventing the failure of crops.
And haze oxides can cause acid rain. The combined water in the water, the acidic rain, and the landing on the ground, rot the building, damage the ancient soil, and also make the soil acidify, destroy the soil fertility, and endanger the balance of life. Rivers, lakes and other water are also affected, and the water quality is poor, endangering aquatic life.
In addition, haze and oxides are harmful to the environment, from transportation to biological health, from the construction of ancient times to the balance of life. It is not involved. We are all doing our best to minimize the discharge of this pollutant and keep the environment where we can survive.

What are the precautions for guanidine chloride during use?

It is important to pay attention to all kinds of things during use to ensure safety.
The first important thing to pass through. Mercury is easy to burn, and it is tired in dense air and easy to cause poisoning. Therefore, when using mercury, it is necessary to install good ventilation devices, such as exhaust fans, etc., so that the mercury vapor can escape quickly, reduce the air temperature, and avoid people's inhalation.
When operating, you must be careful. When taking mercury, it is appropriate to use special utensils, such as droppers, pipettes, etc., to prevent it from escaping. If the mercury is lost, do not use hand, use droppers, mercury absorbers, etc., and cover it with sulfur powder to synthesize it into mercury sulfide, reduce toxicity, and then clean it up.
It is also necessary to store it. Mercury needs to be stored in a dense container to prevent damage. And it should be stored in a dry and dry place, avoiding direct light to a high environment, so as not to accelerate. Outside the container, it is clear that it is toxic, and the police should not approach it.

When it comes to mercury, it is necessary to use anti-mercury equipment. Workers wear work clothes, wear masks, gloves, eyes, etc., to isolate the mercury from the body. Work clothes, washing hands, washing and other exposed parts, to prevent mercury from adhering.
In addition, those who need to undergo regular health checks. Mercury poisoning is hidden, and in the early stage, regular checks can detect mercury in the body and treat it.
Therefore, the use of mercury should not be ignored in each case. Only by following safety procedures and taking precautionary measures can mercury harm be avoided and personal well-being be improved.

What are the chemical properties of guanidine chloride?

Mercuric compounds are compounds formed from mercury. Their chemical properties are unique and vary depending on the chemical content.
Mercuric chloride, which is also high in mercury, is white crystalline. Its activity is high, and it has a certain solubility in water, which can generate hydrolysis reactions. Hydrolysis, part of mercury chloride reacts with water to form mercury chloride. Mercury chloride is oxidizing and can be reactive to original substances. In case of gold, it can be oxidized, and it is itself oxidized by the original mercury chloride.
Mercury bromide is a white powder or crystal. Its solubility is slightly lower than that of mercury chloride, and its chemical activity is slightly weaker. Under light irradiation, mercury bromide decomposes to a certain extent to form mercury bromide. The decomposition of mercury iodide is highly susceptible to light.
Mercury iodide has a crystalline form that is highly susceptible to light. Mercury iodide has very little solubility and is almost insoluble in water. It can generate iodide particles and generate tetraiodide mercury particles, and this compound is determined.
Mercury compounds are highly toxic and need to be used with special caution. The variety of their chemical properties has certain applications in chemical research, analysis, and other fields. However, their use is also limited due to their toxicity.

What is the production process of guanidine salt chloride?

The production of mercury compounds has been in place since ancient times, and it has not been done since ancient times. In the past, alchemists sought to produce raw materials and make pills, and there were many problems involved in the mercury method.
Among mercury, mercury sulfide is especially common, and its method is exquisite. Because of the natural production of cinnabar, that is, mercury sulfide, there are also artificial methods. Take mercury first, put it in a dense vessel, and add sulfur, and the two are matched in the proportion of gold. Mercury is as colored as gold, and it flows like water; sulfur is dry and flammable. Mix the two, and add slowly, and the dense vessel can keep it flat.
Add it, and the heat needs to be controlled. The fire is slightly fast, and the mercury is easy to disperse and lose its essence. After the two are combined one after another, the color is red, that is, mercury sulfide is obtained. This red material, the ancients used to be a god, and was mostly used in danqi, rice and other materials.
There is also a method of mercury chloride. Take mercury and other food materials, and put them together in a crucible container. First, dry it over a light fire to make chlorine in the food come out, and mercury is combined. This process needs to be paid attention to, because mercury and its compounds are toxic, if inhaled, it is very harmful. Mercury chloride is formed, and its shape or white crystals are toxic. However, it is also toxic.
Furthermore, mercury nitrate is taken. When mercury and nitric acid are mixed, the two meet, that is, they will cause a strong reaction, and there will be brown. This reaction speed is very fast, and there is a lot of release, so the operation needs to be careful and careful, often by cold water bath and other methods to prevent accidents. After the reaction, cooling, crystallization and other processes, mercury nitrate crystals can be obtained. This crystal is often used in chemical applications and so on.
Of course, the ancients were limited by the generation of mercury compounds, but their exploration of spiritual wisdom also laid the foundation for the development of the world.