(4-Aminobutyl)Guanidine Sulphate

Lingxian Chemical

Specifications

HS Code	510237
Chemical Formula	C4H14N6O4S
Molecular Weight	226.26 g/mol
Appearance	White to off - white powder
Solubility	Soluble in water
Purity	Typically high - purity grade available, e.g., 98%+
Odor	Odorless
Ph In Solution	Neutral or near - neutral depending on concentration
Stability	Stable under normal storage conditions

Packing & Storage

Packing	(4 - Aminobutyl)Guanidine Sulphate packaged in 100g vials for chemical use.
Storage	(4 - Aminobutyl)Guanidine Sulphate should be stored in a cool, dry place, away from direct sunlight and heat sources. Keep it in a tightly - sealed container to prevent moisture absorption and exposure to air, which could potentially cause degradation. Ensure proper labeling and store it separately from incompatible substances to avoid chemical reactions.
Shipping	(4 - Aminobutyl)Guanidine Sulphate is shipped with strict adherence to chemical safety regulations. Packed in air - tight, corrosion - resistant containers, it travels via approved carriers, ensuring secure transit to prevent any exposure risks.

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General Information

Historical Development

(4-Aminobutyl) guanidine sulfate is also worth studying in the field of my chemical research. In the past, various researchers were poor in their properties and craftsmanship. At the beginning, it was difficult to explore its properties, but it was not fully solved. Later, the technology gradually clarified the connection between its structure and nature, and the craftsmanship was also good. In the past, it was sought by simple methods, with less yield and pure difficulty to control. Today, new technologies are emerging, with high yield and high quality. From ancient times to the present, the research on (4-aminobutyl) guanidine sulfate has advanced step by step, from ignorance to clarity, laying the foundation for the wide use of various domains. Its history is the gathering of the efforts and wisdom of our researchers, and it is also the guide for later research.

Product Overview

(4-Aminobutyl) guanidine sulfate, which is the subject of my research in chemical products. Its unique nature, the appearance is often a specific state, or powder, or with a different form. In the stage of chemical reactions, it can show unique effects.
This product has potential uses in various fields. Or in fine chemical synthesis, it is used as a key raw material to assist in the birth of complex compounds; or in specific pharmaceutical research and development, it plays its unique role and contributes to the conquest of difficult diseases.
However, the preparation process requires careful methods, and each step is related to success or failure. From the selection of raw materials to the determination of reaction conditions, temperature, pressure, reaction time, etc., all need to be precisely controlled in order to obtain high-quality (4-aminobutyl) guanidine sulfate, which can be fed into many fields of demand.

Physical & Chemical Properties

The physical properties of (4-aminobutyl) guanidine sulfate are important for chemical research. Its color state is pure, often white crystalline powder, and it is delicate in appearance, just like the condensation of snow. Its melting point is accurate, providing precise parameters for scientific research. In terms of solubility, it can be dissolved in water, such as salt melting in a spring, evenly dispersed, which is convenient for many experimental operations.
Stability is also good, at normal temperature, it can keep its properties, and it is not easy to change. In case of special chemical reagents, it also has a wonderful reaction, just like ice meets fire, changing thousands of times. Its density is moderate, which is a sign of material characteristics.
In the field of scientific research, this property is like a key, opening the door to chemical mysteries, helping research to deepen step by step, and paving the way for the exploration of the unknown.

Technical Specifications & Labeling

Technical specifications and labeling (product parameters) of (4-aminobutyl) guanidine sulfate
There is (4-aminobutyl) guanidine sulfate now, and its technical specifications need to be detailed. Looking at its properties, it should be pure and free of impurities, with uniform color and quality. The proportion of its ingredients should be accurate and in line with the established rules. The preparation method must follow a rigorous process, and each step should be carefully operated to ensure constant quality.
As for the labeling, the product parameters must be clear. Indicate its purity geometry, the geometry of impurities contained, and suitable storage conditions, such as temperature and humidity. In this way, it is possible to make this object clear to the user at the time of application, without error, so that it can fully function and meet the requirements of technical specifications and labels.

Preparation Method

There is now a method for preparing (4 - Aminobutyl) Guanidine Sulphate, which is described in detail below.
The raw materials need to be carefully selected. First prepare an appropriate amount of a pure starting material, the quality needs to be pure, and the amount must be accurate. Preparation process, the first step is the reaction step. In a special vessel, control the precise temperature, mix the starting material with the suitable reagent in the appropriate proportion, stir well, and make a full reaction.
After the reaction is completed, followed by the purification mechanism. Appropriate separation methods, such as filtration, distillation, extraction, etc., remove its impurities and leave its essence. After several purifications, high-purity (4 - Aminobutyl) Guanidine Sulphate can be obtained. Every step requires careful operation. If there is a slight error, all previous efforts will be wasted. Only in this way can we obtain excellent products.

Chemical Reactions & Modifications

"Chemical Reaction and Modification of (4 - Aminobutyl) Guanidine Sulphate"
The author of (4 - Aminobutyl) Guanidine Sulphate is also the object of chemical research. Its chemical properties are unique, and in the reaction, it often shows a special appearance.
Look at its reaction, or combine with others, and between bonds, there are subtle changes. Changes in molecular structure affect its chemical activity. In case of nucleophiles, or in response to substitution, atomic translocation and structural reorganization.
As for modification, it is designed to optimize its performance. Or introduce new groups to change its polarity and stability. After modification, it may have better effects in specific fields. For example, in the synthesis of materials, the toughness and heat resistance of materials can be increased.
After many experimental investigations, it is well known that the reaction and modification of this compound require precise control of conditions in order to achieve the desired results, opening up new avenues for chemical research and application.

Synonyms & Product Names

(4-Aminobutyl) guanidine sulfate, also known as guanidine butylamine sulfate. In the field of my chemical research, the analysis of its aliases and trade names is quite important. (4-Aminobutyl) guanidine sulfate, its aliases or from different perspectives of chemical structure analysis, or due to differences in synthesis paths. The determination of the trade name is often related to the difference in marketing activities and application fields.
From the perspective of its aliases, there are those named from the characteristics of its chemical groups, highlighting the key composition of amino and guanidine groups in its structure. As for the trade name, merchants may choose a unique name to distinguish it from other products in order to highlight its unique efficacy and purity advantages. Knowing the synonyms and trade names of (4-aminobutyl) guanidine sulfate is of great significance in chemical research, product selection, and trade exchanges, and can help to accurately identify and communicate effectively without confusion.

Safety & Operational Standards

" (4 - Aminobutyl) Guanidine Sulphate Product Safety and Operation Specifications"
Husband (4 - Aminobutyl) Guanidine Sulphate is also a chemical product. If you want to make good use of it, you must first clarify its safety and operation specifications, so as to be safe.
Store in a cool, dry and well-ventilated place. Keep away from fire and heat sources to avoid the risk of explosion. This product may be chemically active, and it may change unexpectedly in case of heat or fire.
When operating, be careful. Appropriate protective clothing, such as lab clothes, gloves, etc., must be worn to prevent it from coming into contact with the skin. If you accidentally touch it, rinse it with plenty of water as soon as possible and seek medical attention as appropriate. Air circulation should also be maintained in the operation room to avoid the accumulation of its powder or volatiles in the air and the harm of inhalation.
When using, follow the accurate measurement specifications. Do not use in excess, so as not to affect the experimental results and prevent accidental reactions. After use, properly dispose of the remaining materials. Do not discard them at will. Do it according to the method of chemical waste treatment to ensure environmental safety.
Furthermore, during transportation, strict regulations must be followed. Ensure that the packaging is stable to prevent its leakage and damage. In case of an accident, know emergency measures to reduce hazards.
All of these are the essentials of (4 - Aminobutyl) Guanidine Sulphate safety and operation. Practitioners should keep it in mind and practice it in order to ensure that everything goes smoothly and is safe.

Application Area

(4-Aminobutyl) guanidine sulfate has a wide range of uses. In the medical way, it may help heal muscle damage and promote its recovery. Muscle fatigue and injuries, or rely on this to slow down. And in the study of biological mechanisms, it is also possible. Explore the secrets of cell metabolism and proliferation, this agent may be able to reveal one or two. In the animal husbandry industry, if fed in an appropriate amount, it may increase the muscle mass of animals and promote their growth. Make the animal strong and the meat production is abundant. It has potential in various fields, waiting for the researchers to dig deep, develop its great use, and contribute to the well-being of the world, so as to benefit the common people.

Research & Development

In recent times, the art of chemistry has become more and more refined, and the research on all kinds of substances has become more and more profound. Today there is (4 - Aminobutyl) Guanidine Sulphate, which has been studied by chemists of our generation for many years. What its nature is and where it is used are all important to our investigation.
First observe its quality, study its structure in detail, and explore its response to other things. After repeated experiments, we know that it can make special changes under certain circumstances, which can be the basis for new techniques.
And think about the way to promote this thing, so that it can be used in various industries, which is beneficial to the country and the people. However, there are many difficulties in the meantime. If the preparation method is refined, the cost must be reduced. We study day and night, hoping to make progress, so that this (4 - Aminobutyl) Guanidine Sulphate will shine brightly in the way of research and development, leaving a treasure for future generations.

Toxicity Research

Modern chemical refinement is crucial to the toxicity study of various chemicals. Today there is (4 - Aminobutyl) Guanidine Sulphate, we should investigate its toxicity in detail.
The harm of many poisons in the past is vividly vivid, causing life to be charred and ecological imbalance. Therefore, the toxicity study of (4 - Aminobutyl) Guanidine Sulphate should not be slack in the slightest. We should use scientific methods and rigorous states to observe its effects on various organisms in different environments and doses. Check whether it is teratogenic, carcinogenic, and whether it is acute or chronic toxicity. Record the data in detail, analyze its mechanism, and hope to know the full picture of the toxicity of this chemical, for future use, or to avoid its harm, or to make good use of it to protect the safety of all living beings and protect the balance of nature.

Future Prospects

Guanidine Sulphate (4 - Aminobutyl) Although this object has come to the fore in this world, its future development still has a vast environment to be explored.
At this time, it is also in various fields, and it is beginning to show its function, just like the rising of the morning sun, and the dim light is gradually emerging. However, if you want to reach the glorious and prosperous state, you still need all kinds of efforts.
In the field of medicine, it may open up new paths and save the disease of patients; in the road of scientific research, it may inspire new ideas and solve difficult problems.
We should study it diligently, study its nature, and study its use. Over time, I hope it can spread its wings like Kunpeng, skyrocket, and bloom brightly in the field of the future, contributing to the progress of the world, and becoming an unparalleled cause, so as to benefit the people of the world and recognize its extraordinary value. This is the future prosperity that my generation of researchers expect.

Frequently Asked Questions

What are the main uses of guanidine sulfate?

(4-Hydroxybenzyl) phosphate, its main uses are as follows:
In the field of medicine, it can be used as a key intermediate in drug synthesis. Due to its unique chemical structure, it can participate in the construction of a variety of drug molecules. For example, some compounds with specific physiological activities can be introduced as important structural fragments during the synthesis process. (4-Hydroxybenzyl) phosphate can be introduced as an important structural fragment to help form drugs with specific pharmacological effects. It may play an indispensable role in the development of some innovative drugs for the treatment of cardiovascular diseases and nervous system diseases.
In the field of materials science, it can be used to prepare functional polymer materials. It can polymerize with other monomers, giving materials special properties. For example, by copolymerizing with certain polymer monomers, the material has better hydrophilicity, biocompatibility or specific electrical properties, etc., which can be used in biomedical materials, electronic materials and other fields. For example, in the field of biomedicine, the prepared related materials can be used for tissue engineering scaffolds, which help cell adhesion and growth; in electronic materials, the electrical conductivity of materials can be improved.
In agricultural chemistry, it can be used as an active ingredient or auxiliary of new pesticides. With its chemical properties, it can affect the physiological activities of pests, such as interfering with the nervous system of pests, inhibiting their growth and development, etc., and then achieve the purpose of pest control. At the same time, as an adjuvant, it can improve the stability, solubility and adhesion of pesticides on plant surfaces, enhance the use effect of pesticides, reduce the amount of pesticides, and reduce the negative impact on the environment.
(4-hydroxybenzyl) phosphate has shown important application value in many fields such as medicine, materials science, agricultural chemistry, etc. With the continuous progress of science and technology, its potential uses are expected to be further explored and expanded.

What are the chemical properties of guanidine sulfate?

The chemical properties of (4-hydroxypyridine) sulfate are as follows:
This compound has the characteristics of both 4-hydroxypyridine and sulfate. 4-hydroxypyridine, whose hydroxyl groups are active to a certain extent, can participate in many chemical reactions. The hydroxyl group acts as an active check point and can undergo substitution reactions, such as with halogenated hydrocarbons. Under appropriate conditions, the hydrogen of the hydroxyl group can be replaced by the hydrocarbon group to form ether derivatives. Due to the existence of the pyridine ring, the nitrogen atom has lone electrons and is somewhat basic. It can react with acids to form salts, such as (4-hydroxypyridine) sulfate when interacting with sulfuric acid.
The sulfate ion is relatively stable in the sulfate part. In aqueous solution, (4-hydroxypyridine) sulfate will ionize and release corresponding ions. Sulfate ions usually do not participate in general redox reactions and are relatively stable in strong acid environments.
In terms of solubility, (4-hydroxypyridine) sulfate, as an ionic compound, is more soluble in water than 4-hydroxypyridine. Due to the interaction between ions and water molecules, its solubility in water is significantly improved.
In terms of thermal stability, when heated, the compound may decompose first, the pyridine ring part may be changed due to the breaking of chemical bonds in the structure, and the sulfate part may be further decomposed or transformed at higher temperatures. However, the specific thermal decomposition temperature needs to be precisely determined by experiments.
In the field of organic synthesis, (4-hydroxypyridine) sulfate can be used as an important intermediate for the synthesis of more complex nitrogen-containing heterocyclic compounds due to its unique structure, providing a variety of reaction paths and possibilities for organic synthesis chemistry.

What are the precautions for (4-aminobutyl) guanidine sulfate during storage and transportation?

In the process of storage and transportation of (4-hydroxybutyl) phosphate, many matters need to be paid attention to.
One is related to storage. Choose a cool, dry and well-ventilated place. This is because (4-hydroxybutyl) phosphate may absorb moisture and deteriorate in a humid environment, which may affect its quality. Storage must be kept away from fire and heat sources. After all, the substance may be flammable to a certain extent, and it may cause danger in case of open flames and hot topics. In addition, it must be stored separately from oxidants, acids, alkalis, etc., and must not be mixed. Because of its relatively active chemical properties, contact with these substances is very likely to cause chemical reactions, resulting in accidents. For example, if it encounters a strong oxidizing agent, it may cause a violent oxidation reaction.
Second, about transportation. Be sure to ensure that the packaging is complete and sealed before transportation. If the packaging is damaged, it will not only cause the leakage of (4-hydroxybutyl) phosphate ester, pollute the environment, but also may cause danger due to the contact of the leakage with external substances. During transportation, it is necessary to strictly abide by the relevant transportation regulations, and the transportation vehicles must be equipped with the corresponding variety and quantity of fire fighting equipment and leakage emergency treatment equipment. In the event of an accident such as leakage, it can be dealt with in a timely manner to reduce the harm. At the same time, the transportation personnel must also have professional knowledge and be familiar with the characteristics of (4-hydroxybutyl) phosphate ester and emergency treatment methods, so that in the face of emergencies, they can respond calmly and

What is the synthesis method of guanidine (4-aminobutyl) sulfate?

What is the synthesis method of (4-aminopyridine) sulfate ester? This imitation of "Tiangong Kaiwu" answers this question in ancient words.
To prepare (4-aminopyridine) sulfate ester, the method is to first take an appropriate amount of pyridine and place it in a clean vessel. Pyridine is an organic compound with an aromatic heterocyclic structure, which is active and can be used as a base for reaction.
Next, place pyridine in a specific reaction environment, at a suitable temperature and pressure. Introduce an ammonia source, and the choice of an ammonia source should be one that is pure and has good reactivity. Make pyridine and ammonia react slowly under the action of a specific catalyst. This catalyst is the key to promoting the reaction to accelerate and proceed in a directional manner, and it needs to be carefully selected to conform to the characteristics of the reaction.
During the process of the reaction, pay close attention to the variables of temperature, pressure and reaction time. If the temperature is too high, the reaction will be too fast, and the product or impurities will be generated; if the temperature is too low, the reaction will be slow and time-consuming. The regulation of pressure should not be underestimated. Appropriate pressure can make the chance of collision between reactants moderate and improve the efficiency of the reaction.
When the reaction between pyridine and ammonia source reaches the expected degree, 4-aminopyridine intermediates will be formed. At this time, another sulfuric acid is taken and slowly added to the 4-aminopyridine containing 4-aminopyridine to control the rate Sulfuric acid and 4-aminopyridine are esterified to form (4-aminopyridine) sulfate esters.
After the reaction is completed, impurities in the reaction system are removed by suitable separation and purification methods. Distillation, extraction, recrystallization and other techniques can be used, depending on the physical and chemical properties of the product and impurities. After these steps, pure (4-aminopyridine) sulfate esters can be obtained. It is necessary to be clear that each step must be carefully operated. If there is a little carelessness, the purity and yield of the product will be affected.

What is the market prospect of guanidine (4-aminobutyl) sulfate?

The current market prospect of (4-hydroxybutyl) sulfate is quite promising. Looking at the chemical substances used in the world, these substances are gradually emerging in the market and have a wide range of uses.
It has great potential in the field of medicine. In terms of pharmaceuticals, it can be used as a key intermediate for drug synthesis. Due to its unique structure, it can react ingeniously with many chemicals, thus helping to synthesize drugs with different effects. In today's world, the demand for medicine is on the rise, and new drug research and development is emerging in an endless stream. (4-hydroxybutyl) sulfate is indispensable in the pharmaceutical process due to its characteristics, so the market demand is increasing with the rise of the pharmaceutical industry.
In the field of daily chemical industry, it has also emerged. Such as skin care products, adding this product may optimize the texture of the product and improve the skin care efficiency. The pursuit of beauty is endless, and the market for daily chemical products is also expanding. (4-hydroxybutyl) sulfate has the ability to improve product quality, and it is favored by merchants, and the demand is rising.
Furthermore, it can also be seen in many aspects of industrial production. The manufacture of some special materials requires this as an auxiliary agent to achieve specific physical or chemical properties. Industrial development is changing with each passing day, and the demand for special materials continues to rise. (4-hydroxybutyl) sulfate as a related auxiliary agent has a bright market prospect.
Therefore, (4-hydroxybutyl) sulfate has broad application space in many fields such as medicine, daily chemical industry, and industrial production. With the continuous progress of various industries, its market demand is expected to rise steadily, and the prospect is brilliant.