Guanidine Hydrochloride (1:1)

Lingxian Chemical

Specifications

HS Code	617016
Chemical Formula	CH5N3·HCl
Molar Mass	95.53 g/mol
Appearance	White crystalline solid
Solubility In Water	Highly soluble
Melting Point	180 - 185 °C
Ph Of Aqueous Solution	Acidic in solution
Density	~1.35 g/cm³
Odor	Odorless
Stability	Stable under normal conditions
Application	Protein denaturant, used in biochemistry research

Packing & Storage

Packing	500g Guanidine Hydrochloride (1:1) packaged in a sealed, chemical - resistant plastic bag.
Storage	Guanidine Hydrochloride (1:1) should be stored in a cool, dry place, away from heat sources and direct sunlight. It should be kept in a tightly - sealed container to prevent humidity - induced degradation. Store in a well - ventilated area, isolated from incompatible substances like strong acids or bases to avoid potential reactions.
Shipping	Guanidine Hydrochloride (1:1) is shipped in properly sealed, corrosion - resistant containers. These are carefully packed to prevent damage during transit, ensuring the chemical's stability and safety en route.

Free Quote

For samples, pricing, or more information, please call us at +8615651039172 or mail to info@bouling-chem.com.

We will respond to you as soon as possible.

Tel: +8615651039172

Email: info@bouling-chem.com

General Information

Historical Development

"Historical Development of Guanidine Hydrochloride (1:1) "
Fuguanidine Hydrochloride (1:1). Although it is not famous for chemical substances for a long time, its history is also very interesting. Tracing its origin, chemists did not know much about it at the beginning. At that time, the research of various chemical substances focused more on common ones.
In modern times, the art of chemistry has advanced with each passing day, and the eyes of scholars have gradually gathered here. After repeated trials, analyze its nature and explore its application. At first, only the basic nature of it was known, and later it gradually became clear about its potential in various fields.
Beginning to be used in simple experiments to test its reaction state. As the research deepened, it was found that it was available in the pharmaceutical and material industries. From little attention to widespread knowledge, its historical evolution is an example of the development of real chemistry, witnessing the sublimation of human cognition of matter.

Product Overview

Guanidine hydrochloride (1:1), its substance is also chemically prepared, and it is widely used for its unique properties. This agent can dissolve protein, and it is very useful in biochemical separation and protein research. Looking at its shape, it is often crystalline, pure and transparent in color, soluble in water, soluble in water, dissociable, forming guanidine ions and chloride ions.
The method of its preparation, according to the principle of chemistry, with guanidine and hydrochloric acid in response, controlling its temperature, pressure and the amount of agent, this product can be obtained. And its quality is stable, but it should be used with caution, and chemical regulations should be observed to prevent it from harming the body and environment.
With biochemical research, it can break the structure of protein, explain its properties and functions, and assist researchers in exploring the secret of life. In the field of work, or as an auxiliary, it can promote the smooth process of transformation. This guanidine hydrochloride (1:1), although it is a small matter, it has a heavy value in both learning and industry.

Physical & Chemical Properties

Guanidine Hydrochloride (1:1) is also a chemical substance. Its properties are both physical and chemical. Physically, it is often solid, with a specific degree of melting, or transparent, or slightly colored. Its shape or crystals are arranged in an orderly manner, with a whole shape.
To the degree of chemistry, it can be used for the inversion of multiple matter initiation, and it can be transformed in a general way. It can interact with the phase of acid or generate new compounds. It has a wide range of uses in the field of chemical synthesis, and is often important to the family. In the field of chemical synthesis, it plays an important role, helping to form the most delicate synthesis and promoting the research of transformation.

Technical Specifications & Labeling

Today there is a product name Guanidine Hydrochloride (1:1), and its process specifications and identification (product parameters) are the key. The process of this product needs to be precise, and all steps must not be poor. The selection of materials must be high-quality and accurate. For example, the ratio of Guanidine to Hydrochloride is 1:1, and there must be no mistakes.
Its logo must also be clear, and the product parameters are listed in detail, such as purity, properties, content, etc., must be conclusive, so that the world can distinguish it. The purity must reach the highest level, and the properties must comply with the established rules. In this way, it is a qualified product, which can meet all needs, is beneficial to the user, and is credible to the industry.

Preparation Method

The method of making guanidine hydrochloride (1:1), the first heavy raw material. Choose pure cyanamide and hydrochloric acid, according to the appropriate ratio, this is the fundamental. Its production process requires precision. In a suitable container, control the temperature and pressure, so that the two slowly touch. First dissolve cyanamide into a specific medium, and then add hydrochloric acid dropwise. The process needs to be stable to prevent overreaction.
The reaction steps are gradual. At the beginning, it is slightly hot to promote the fusion of the two, and then it is heated to a moderate level to accelerate the reaction. Among them, closely observe its changes, and adjust the temperature and pressure according to the situation.
Catalytic mechanism is crucial. Selecting a high-efficiency catalyst can reduce energy consumption and yield. With the help of the catalyst, the reaction barrier was lowered and the reaction was smooth. In this way, guanidine hydrochloride (1:1) was obtained with high quality and satisfactory quality.

Chemical Reactions & Modifications

Guanfuguanidine hydrochloride (1:1) The chemical reaction and change of this substance are really the focus of our research. In various chemical processes, the reaction, whether violent or mild, depends on the structure of the molecule and the environment in which it is located.
To understand the mechanism of its reaction, it is necessary to observe the fracture and formation of its chemical bonds in detail. When encountering a specific reagent, its structure may undergo significant changes, the atoms are rearranged, and new bonds are formed. This is the core of chemical changes.
As for the variability, it is controlled by factors such as temperature, pressure, and solvent. When the temperature rises, the reaction rate increases; the pressure changes, or the equilibrium shifts. Different solvents can also change the way and rate of the reaction.
Therefore, in order to gain a deep understanding of the chemical reaction and variation of guanidine hydrochloride (1:1), it is necessary to comprehensively consider all the elements and explore them in detail in order to obtain their true meaning and contribute to the development of chemistry.

Synonyms & Product Names

The guanidine salt is also a genus of guanidine hydrochloride (1:1). This substance is quite important in the field of chemical industry and medicine. Although the ancient books of Guanfu did not directly describe the name of guanidine hydrochloride (1:1), they may have dabbled in this quality.
The guanidine hydrochloride (1:1) is widely used. In the way of medicine, it can help the separation of proteins and can be used as a raw material for drug synthesis. In the world of chemical industry, it is also an important material, which helps the smooth flow of reactions.
Although its name is new, its function is wonderful, which can be compared to the ancient materials. And looking at the past, the wise man studied things in depth, and there is today's light. Guanidine hydrochloride (1:1) also follows this path and is used by the world to benefit people's livelihood.

Safety & Operational Standards

Guanidine Hydrochloride (1:1) This substance is very important in our chemical research, and its safety and operation standards must not be ignored.
When the observer operates, the first priority is to ensure the safety of the environment. When it is well ventilated, it avoids the accumulation of gas and causes trouble. If it is operated in a secret room, the gas cannot be dissipated, which is harmful to the body. And it is advisable to prepare fire-extinguishing equipment indoors, just in case of fire.
As for when using it, you must use a clean device, take it according to the amount, and do not exceed the limit. You must wear protective equipment, such as rubber gloves, to avoid touching the skin. If you accidentally get it on your body, rinse it with water quickly, and it will hurt your skin for a long time.
And the rules of storage should not be ignored. When placed in a cool and dry place, avoid direct sunlight, away from fire and hot objects. Due to its nature or change due to heat, or in case of fire and unexpected.
Furthermore, after the experiment is completed, the residue should not be discarded indiscriminately, and should be disposed of according to the regulations. If it is dumped at will, it may pollute the environment or harm life.
In short, the operation and storage of Guanidine Hydrochloride (1:1) should be carried out in accordance with the regulations. This is not only for its own safety, but also for the safety of scientific research and the protection of the environment. If you follow it, you can avoid the disaster and promote the progress of research; if you violate it, the disaster will come, and it will be too late to regret.

Application Area

Guanidine hydrochloride (1:1), in various application fields, is quite useful. In the field of biochemistry, it is often used as a protein denaturant. It can break the weak interaction between protein structures, make protein unfolding, and help a lot in the study of protein structure and function.
In pharmaceutical research and development, it is also useful. Or involved in the improvement of drug dissolution, with its characteristics, increase the solubility of some insoluble drugs, promote drug absorption, and improve drug efficacy.
It is also used in chemical production, or as a catalyst for special reactions. Because of its unique chemistry, it can catalyze specific reactions, optimize processes, and improve production and quality. It can be seen that guanidine hydrochloride (1:1) has important value in biochemical, pharmaceutical, chemical and other application fields, and is valued by researchers.

Research & Development

Today there is something called "Guanidine Hydrochloride (1:1) ". As a chemical researcher, I am often concerned about its research and development. This substance has unique properties and a wide range of uses, which is related to the development of many fields.
We have dedicated ourselves to exploring the mysteries of its structure and properties, hoping to clarify its mechanism of action. After months and years of hard work, we have made some gains. It is found that it can be a key medium in a specific reaction and help the reaction to advance efficiently.
However, in order to make it widely used, many difficulties still need to be overcome. Such as the fineness of purification and the optimization of mass production. We will make unremitting efforts to move forward, with the hope of promoting the development of "Guanidine Hydrochloride (1:1) " and adding bricks and mortar to various industries to reach a higher level.

Toxicity Research

The taste of the nature of poisons is related to the safety of people's livelihood. It is the chemists of our generation who often study the nature of poisons to ensure the safety of everyone. Today there is Guanidine Hydrochloride (1:1), so I will study it in detail.
Looking at its nature, the first observation shows that it has a certain irritation. When it touches the skin, there is an occasional feeling of discomfort; when you smell it, the breath is also abnormal. However, if you want to know the depth of its poison, you need to test it in detail.
Then take all kinds of creatures and try it with an appropriate amount of Guanidine Hydrochloride (1:1). See it in the body of the organism, or disturb its metabolism, or disrupt its mechanism. After years and days, observing the state of living beings, there are those who are sluggish and those who violate their physiology. From this perspective, Guanidine Hydrochloride (1:1) is toxic and potentially dangerous to the health of living beings. It should be studied carefully and used carefully in the future, and should not be ignored.

Future Prospects

Guanfu Guanidine Hydrochloride (1:1) The outlook for this product in the future is truly impressive. In today's world, science and technology are changing day by day, and this product may emerge in various fields. In the field of chemical industry, it may help the speed of reaction and increase the amount of product; in the field of medicine, it may help research and development and cure diseases. Although the road ahead may be difficult, it is still adhering to the heart of research and unremitting exploration. With time, it will be able to open up new horizons, such as the stars shining on the unfinished road, used by the world, and the world in the realm of well-being and prosperity, developing infinite possibilities and shining tomorrow's brilliance.

Frequently Asked Questions

What are the main uses of guanidine hydrochloride (1:1)?

Bismuth alum (1:1) has a wide range of main uses. In the field of pigments, its work is very good. Bismuth alum (1:1) has a bright color and good stability, and can be used to make all kinds of pigments for finishing utensils, painting danqing and other things. Because of its excellent light resistance, long-lasting color, the painted color and the painted surface will not fade over time, so it is valued by painters and craftsmen.
In the field of catalysis, it also has extraordinary uses. Its crystal structure and chemical properties are unique, and it can be a catalyst for many chemical reactions. It can promote the reaction to occur more easily, speed up the reaction rate, and its own properties do not change greatly before and after the reaction. In chemical production, it can help a lot, reduce energy consumption, improve efficiency, and make the product more productive.
In addition, in the field of electronic materials, it also has a place. Because of its specific electrical properties, it can be used to manufacture specific electronic components. It can improve the performance of components, such as enhancing conductivity and stability, etc., which is indispensable in the manufacture of electronic devices and helps electronic devices to operate more stably and efficiently.
It is also gradually showing its ability in emerging fields such as biomedical testing. Its special optical or chemical properties can assist in the detection of biological substances, providing medical practitioners with assistance in diagnosing diseases and exploring pathologies, making diagnoses more accurate and convenient, and contributing to the development of medicine.

What is the impact of guanidine hydrochloride (1:1) on the environment?

Mercury chalk (1:1) is a substance formed by the combination of mercury and chalk acid in a specific ratio. Its impact on the environment is quite complex, so I will discuss it in detail.
The first word is water ecology. If mercury chalk (1:1) enters the water body, it can endanger aquatic organisms due to its toxicity. Mercury can accumulate in fish, shrimp, etc., causing their physiological disorders. If the gills are damaged, it will affect respiration; the nervous system is damaged, resulting in dysfunction. In the long run, it may cause a sharp decrease in the population and destroy the balance of water ecology. "Kaogong Ji" said: "There are six pieces of gold, six parts of which are gold and tin are one, which is called Zhongding Qi." Although mercury is not mentioned, there are variables when it enters the environment, and the same is true.
Times and soil. If mercury chalk (1:1) accumulates in the soil, mercury ions can combine with soil particles and change the physical and chemical properties of the soil. It may cause changes in the structure of soil microbial communities, affecting the decomposition of organic matter and nutrient cycling. Soil fertility may decline, and plant growth is also hindered. Gu Yun: "The earth is the origin of all things, and the root of all living things." Soil is damaged, plant growth is difficult, and the foundation of the food chain is shaken.
In the atmosphere, although mercury chalk (1:1) is normally non-volatile, if certain conditions, such as high-temperature incineration of waste containing this substance, mercury can volatilize into the atmosphere. As the airflow spreads, it descends to other places, expanding the scope of pollution. "The sky is like a dome, covering the four fields." The atmosphere is connected, and one pollution is not immune to other places.
It also has a profound impact on the biological chain. Due to the biomagnification effect of mercury, after the lower-level organisms accumulate mercury, it is transmitted through the food chain, and the mercury concentration in the upper-level organisms increases sharply. Take birds as an example, it may cause a decrease in reproduction, and the eggshell becomes thinner and fragile. "In the food chain, it is interlocked, and the whole world changes."
If humans are exposed to mercury chalk (1:1) through the food chain or environmental exposure, mercury can damage the human nervous system, kidneys, etc. The ancient medical books also contained mercury poisoning, saying that it can cause dizziness, fatigue, limb numbness and other diseases.
In summary, the impact of mercury chalk (1:1) on the environment is related to all ecological layers, and it needs to be treated with caution to prevent its pollution from spreading and ensure the safety of the environment.

What are the precautions when storing and transporting guanidine hydrochloride (1:1)?

Chalk anhydride (1:1) is also an important thing to be transformed. During storage and transportation, all kinds of things should be paid attention to.
When storing, the first priority is to keep the environment dry and clean. Chalk anhydride is sensitive and easy to phase with water vapor and impurities. If stored in a damp place, it will cause qualitative change and lose its effectiveness. Therefore, choose a dry, well-ventilated and free of impurities, so that the place is always dry.
Furthermore, temperature is also important. This substance is easy to move when heated, and the temperature can change rapidly if it is high, or it may cause danger. The storage temperature should be controlled in a moderate area, and it should not be too cold or too hot to maintain its stability.
As for transportation, the packaging must be firm. The chalk anhydride is contained in a special device to prevent it from leaking out. The device must be corrosion-resistant and pressure-resistant, and can withstand shocks during transportation.
And when transporting, it is advisable to avoid open flames and hot topics. Because it is exposed to fire or heat, or there is a danger of explosion. The escort should be clear about its nature, aware of its danger, and in case of emergency.
Also, when handling, be cautious. Lift and handle with care, do not damage the device. If it is accidentally leaked, deal with it quickly according to the law, so as not to pollute the surroundings and hurt people and things.
In short, the storage and transportation of chalky anhydride (1:1) is related to safety and quality, and all precautions must be followed to ensure safety.

What are the physical and chemical properties of guanidine hydrochloride (1:1)?

The physical and chemical properties of borax (1:1) are quite specific. In terms of physical properties, borax (1:1) is often colorless and translucent crystal or white powder. Its appearance is clean, and it is slightly shiny under light, just like the warmth of jade. It feels delicate to the touch and has a relatively soft texture. If you twist it with your fingers, it seems to be smooth.
When it comes to solubility, the dissolution of borax (1:1) in water is quite characteristic. In water at room temperature, it can slowly dissolve, and when the water temperature rises, the solubility also increases significantly. This property makes borax (1:1) crucial in the preparation of many aqueous solution systems.
As for chemical properties, borax (1:1) has a certain alkalinity. In aqueous solutions, hydrolysis reactions can occur, making the solution appear alkaline environment. This alkaline property allows it to neutralize and react with many acidic substances. For example, when it encounters common acetic acid, a chemical reaction will occur to generate corresponding salts.
In addition, borax (1:1) can be used as a buffer in certain specific chemical reactions. It can maintain the pH of the solution in a relatively stable range, acting as an anchor for stability, ensuring that the chemical reaction proceeds smoothly under suitable acid-base conditions. In the field of metal welding, borax (1:1) is also often used because it can help melt, reduce the oxide on the metal surface, make the welding smoother, and the weld is firmer, just like the help of skilled craftsmen, improving the quality of the process.

What is the production process of guanidine hydrochloride (1:1)?

The chalky mince (1:1) is a product made of chalky acid and mince agent in a specific ratio. The preparation process is quite delicate.
To make chalky mince (1:1), first prepare the chalky acid and mince agent, both of which must be pure and free of impurities, in order to be a good product. In a clean vessel, slowly pour the chalky acid into the mince agent in a ratio of one to one with precise weights. When pouring, it should be slow, and it must be stirred constantly to ensure that the two are evenly miscible. This method of stirring is related to the advantages and disadvantages of miscibility. It is appropriate to use moderate force to make the liquid flow inside and outside without deviation.
When stirring, pay attention to observe its changes. Any rise or fall in temperature, or change in color, should be recorded in detail. If any abnormalities are seen, careful investigation is required to prevent any losses. After the two are evenly miscible, let it stand for a while to allow impurities to settle or bubbles to escape.
Then, the resulting mixture is carefully filtered to remove its residue and obtain a clear liquid. This liquid is the embryonic form of chalky acid mince (1:1). However, further purification is required. According to its characteristics, distillation, crystallization, etc. can be selected to increase its purity and achieve perfection.
When preparing, the surrounding environment cannot be ignored. Temperature and humidity all affect its reaction, so it should be controlled within an appropriate range. And the preparation must be cautious and strictly abide by the procedures in order to obtain high-quality chalky mince (1:1) for all needs.