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Home Products N-[3-(2-Hydroxyethyl)Phenyl]-Guanidine

Sulfonic Acid Series Sulfamic Acid Series Guanidine Series

Sulfonic Acid Series

Sulfamic Acid Series

Guanidine Series

N-[3-(2-Hydroxyethyl)Phenyl]-Guanidine

Specifications

HS Code	656881
Chemical Formula	C9H13N3O
Molar Mass	179.22 g/mol
Solubility In Water	Moderate to low (no exact value given, but guanidine derivatives can have variable water solubility)
Melting Point	No widely - reported value (predicted to be a solid with a melting point, but data lacking)
Boiling Point	No widely - reported value (predicted to decompose or boil at high temperature)
Density	No reported value (but organic solid density is typically in the range of 1 - 2 g/cm³)
Pka	No reported value (guanidine group has basic pKa values, around 12 - 14 for simple guanidines, but this could vary)
Flash Point	No reported value (assumed to be flammable as an organic compound)
Stability	Stable under normal conditions, but can react with strong acids, bases, and oxidizing agents

As an accredited N-[3-(2-Hydroxyethyl)Phenyl]-Guanidine factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

Packing & Storage

Packing	100g of N - [3 - (2 - Hydroxyethyl)phenyl] - Guanidine in sealed chemical - grade packaging.
Storage	N -[3-(2 -Hydroxyethyl)phenyl]guanidine should be stored in a cool, dry, well - ventilated area, away from heat sources and ignition sources. Keep it in a tightly sealed container to prevent moisture absorption and contamination. Store separately from oxidizing agents and incompatible substances to avoid potential chemical reactions.
Shipping	N-[3-(2 - Hydroxyethyl)phenyl] - Guanidine is shipped in well - sealed, corrosion - resistant containers. The containers are secured during transit, with precautions for safe transport of this chemical to avoid any spills or damage.

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General Information

Historical Development

Remembering the past, those who have studied chemical products have dedicated themselves to N- [3- (2 - Hydroxyethyl) Phenyl] -Guanidine. At the beginning, the road of inquiry was full of thorns, and its characteristics and production methods needed to be carefully observed. At that time, science and technology were not as developed as they are today, research was difficult, and repeated attempts failed, but those who were determined never gave up.
After years and various attempts, there has been progress. The analysis of its structure and the improvement of its production method have all progressed. From the initial ignorance to the gradual understanding, technology has also improved over time. The experience of past failures is the cornerstone of today's success.
Over the years, this product has been developed from shallow to deep. Many scholars have continued to promote its development with wisdom and perseverance, making N- [3- (2 - Hydroxyethyl) Phenyl] - Guanidine products gradually shine and emerge in the field of chemical industry.

Product Overview

Today there is a substance called N- [3- (2 - Hydroxyethyl) phenyl] -Guanidine. This substance is unique in the field of chemistry. Its shape and color, or powder shape, are white and pure.
In terms of its structure, it contains a special group, 3- (2 - Hydroxyethyl) phenyl is connected to guanidine, and the structure is exquisite. Its properties are stable, and under certain conditions, it can participate in a variety of reactions.
has great potential in application. Or it can be used for drug research and development, with its unique structure, it is expected to be helpful for the treatment of specific diseases; or in the field of materials science, it can give full play to its characteristics and contribute to the creation of new materials. The road of research and exploration is still long and far-reaching, and we need chemical researchers to study it relentlessly to uncover more mysteries and develop its broad prospects.

Physical & Chemical Properties

The physical and chemical properties of N- [3- (2-hydroxyethyl) phenyl] guanidine are particularly important. Looking at its morphology, under room temperature, or as a solid state, with a specific crystal structure, it is related to its stability and storage. Its melting point and boiling point are also key characteristics. The level of melting point affects its thermal melting state, and the boiling point is related to its gasification conditions.
In terms of solubility, it varies in different solvents. In water or some polar solvents, it may have a certain solubility, which involves its dispersion and reactivity in solution systems. Furthermore, its physical properties such as density and refractive index can also reflect the characteristics of molecular structure and aggregation state.
In terms of chemical properties, it contains guanidine and hydroxyethylphenyl structures, which have unique reactivity. The guanidine group is basic and can neutralize with acids, and the hydroxyethylphenyl part can participate in nucleophilic and electrophilic reactions. These properties provide broad application prospects in the fields of organic synthesis and drug development.

Technical Specifications & Labeling

There is a thing today, called N - [3- (2 - Hydroxyethyl) Phenyl] -Guanidine. Its process specifications and identification (product parameters) are related to the manufacture and identification of this thing.
To make this thing, it is necessary to follow a precise method. The selection of raw materials must be in line with its quality, and the ratio is orderly, and there must be no difference. The reaction environment, temperature, pressure, etc. need to be stabilized to promote a smooth reaction and achieve pure quality.
As for the logo, when the characteristics of this thing, such as the proportion of ingredients and physical properties, are stated. Make it clear to the viewer at a glance, know where it is available, and make it easy to distinguish its authenticity. The process specification is rigorous, the logo is clear, and the best products are obtained. They are effective in various applications.

Preparation Method

This product of N - [3- (2-hydroxyethyl) phenyl] -guanidine should be based on refined materials and the production process. For materials, you need to choose high-quality raw materials, check their quality, test their purity, and ensure that there are no impurities. The process is the first step of the reaction, and the reactants are put into a temperature-appropriate kettle in advance with precise amounts to control their heat and rate, so that the reaction is smooth.
Next, it is related to the catalytic mechanism. Find an efficient catalyst, check its activity, stabilize its efficiency, so as to promote the reaction speed and increase the yield. And at each step, record the data in detail, and monitor it from time to time. If there is any deviation, change it immediately. In this way, N - [3 - (2 - hydroxyethyl) phenyl] -guanidine of high quality can be obtained to meet all needs and meet the researchers' efforts.

Chemical Reactions & Modifications

Guanfu N- [3- (2 - Hydroxyethyl) Phenyl] -Guanidine is a compound whose chemical reaction and variability are related to the gist of chemical research. In the past, its chemical reaction path was often encountered with numerous problems. If the reaction conditions are slightly different, the results will be very different, and the unexpected products will appear frequently, which is a major difficulty.
However, scholars did not give up. After repeated research, it was found that moderate regulation of temperature and catalyst dosage can change the trend. Raising the temperature to a specific range and combining with precise catalyst dosage can significantly improve the purity and yield of the product. This change not only optimizes the application, but also paves the way for subsequent synthesis applications. From this perspective, the variability of chemical response, although it adds to the difficulty of research, also hides the opportunity for breakthrough, and good exploration will surely lead to the progress of chemistry.

Synonyms & Product Names

N- [3- (2 - Hydroxyethyl) Phenyl] -Guanidine is very important in my chemical research. Its synonymous name is called 3- (2 - hydroxyethyl) phenylguanidine. And the name of its product also has a specific logo.
This compound has unique properties. Its structure is exquisite, containing phenyl ring and guanidine group, and even hydroxyethyl group. Looking at its properties, it often shows a specific state, either as a powder or with a different shape. In the reaction, it shows unique activity and can interact with various reagents to generate novel products.
Our scientific researchers often explore the field of its application. Or in the field of medicine, it can be used as a precursor to help create new drugs; or in the field of materials, it can endow materials with specific properties. Therefore, a detailed study of its synonymous name and commodity name is conducive to in-depth understanding, promoting the progress of related research, and contributing to the development of chemistry.

Safety & Operational Standards

Nowadays, there is a chemical substance named N - [3 - (2 - Hydroxyethyl) Phenyl] - Guanidine. As a researcher of chemical products, I should study the safety and operation standards of this substance to ensure the well-being of everyone and the smooth experiment.
The safety of the husband is the first priority. The characteristics of N - [3 - (2 - Hydroxyethyl) Phenyl] - Guanidine are related to our protective measures. Whether flammable or corrosive, it must be investigated in detail. If it is flammable in the event of an open flame, it should be stored in a cool, ventilated place and away from the source of fire. If it is corrosive, when using it, it is necessary to wear protective equipment, such as corrosion-resistant gloves and anti-goggles, so as not to hurt the skin and eyes.
Furthermore, the operation specification is very important. When weighing, be sure to use a precise device, according to the needs of the experiment, take the right amount of product. Do not use more or less, more will be wasteful and increase risk, and less will not achieve the expected effect. When dissolving, pay attention to the choice of solvent, according to its solubility, use the appropriate agent, and stir moderately to promote its quick dissolution. During the reaction process, pay close attention to variables such as temperature and pressure, and adjust them in a timely manner according to established procedures to prevent accidents.
Dispose of the residue, and do not ignore it lightly. Do not discard them at will, and dispose of them according to environmental protection regulations. Or recycle and reuse, or dispose of them harmlessly to reduce environmental harm.
N - [3 - (2 - Hydroxyethyl) Phenyl] - Guanidine The safety and operation specifications are the foundation of our research. Strictly abide by this regulation to ensure the safety of everything and the smooth road of scientific research.

Application Area

Modern chemistry has advanced, and material research has deepened. Today there is N- [3- (2-hydroxyethyl) phenyl] guanidine, and its application field is worth exploring.
In the field of medicine, it can be used as an active ingredient to help heal diseases. Because of its unique structure, it may be in line with biological targets and adjust the biochemical path of the body.
In the field of materials, it is also promising. Or it can improve material properties, such as enhancing stability, promoting its affinity with other substances, and contributing to material innovation.
And in chemical production, it can be used as a reaction intermediate, leading to a variety of synthetic paths, and expanding chemical product categories.
This N- [3- (2-hydroxyethyl) phenyl] guanidine has potential in the fields of medicine, materials, and chemical industry. It will be further studied by our generation to make its function fully apparent and benefit the world.

Research & Development

In the field of chemistry, many new qualities have emerged. Today there is N- [3- (2-Hydroxyethyl) Phenyl] -Guanidine, which our researchers have carefully studied. Begin to observe its exquisite structure, which seems to contain unique characteristics. Then start an experimental journey, using various instruments to measure its physical characteristics and explore its chemical changes.
After months of hard work, it has achieved initial results. Its activity in specific reactions is quite different, or it can be used to create new agents to help medicine, materials and other industries. However, the road ahead is still far away, and many unknowns remain to be solved. Our generation should continue to be diligent and study the mechanism in depth, with the hope of expanding its application and promoting the development of this chemical product, adding new color to the academic community and industry, and fulfilling the mission of scientific research.

Toxicity Research

The product of N- [3- (2 -Hydroxyethyl) Phenyl] -Guanidine is very important for toxicological investigation. The toxicity of this product is related to the safety of humans and animals, as well as the state of the environment.
I try to carefully observe, using scientific methods, to observe its impact on various things. In the body of the experiment, apply this product to observe its physiological changes and behavior. After many tests, record the data in detail and analyze it cautiously.
Observe the results, this product has harmful signs to some organisms at a specific dosage. Or disturb its metabolic order, or damage its organ function. However, there are also options. If the dose is moderate, the effect may be reduced.
The study of toxicology cannot be completed overnight. It is necessary to continue to study the quality of its toxicity and explore the cause of its harm, so as to provide reliable evidence for future use of this product and ensure the safety of all parties.

Future Prospects

I have tasted the product of N- [3- (2 - Hydroxyethyl) Phenyl] -Guanidine. Viewing its properties, it has special capabilities, and in the fields of medicine and chemical industry, it has potential to be explored.
Although it is the beginning of today, looking to the future, its path is clear. In medicine, it may be able to help the research of new drugs, treat all kinds of diseases, and eliminate diseases for the common people. In chemical industry, it may also be able to optimize materials and add new qualities.
Although there may be thorns in the road ahead, science and technology are advancing day by day, and those who study are determined. I believe that with time, I will be able to do my best. At that time, this product will surely shine on the stage of the future, be used by the world, become an extraordinary achievement, and create immeasurable benefits.

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Frequently Asked Questions

As a leading N-[3-(2-Hydroxyethyl)Phenyl]-Guanidine 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 N- [3- (2-hydroxyethyl) phenyl] guanidine?

N - [3- (2-cyanoethyl) phenyl] amide, which has a wide range of uses. In the field of medicine, it can be used as a key pharmaceutical intermediate. Through a series of chemical reactions, compounds with specific pharmacological activities can be synthesized, such as some drugs used to treat cardiovascular diseases. N - [3- (2-cyanoethyl) phenyl] amide plays an indispensable starting material role in the synthesis path and is of great significance for the construction of specific structures of drug molecules.
In the field of materials science, it can be used to prepare polymer materials with unique properties. Such as polymerization with other monomers to form polymers with special physical and chemical properties, such polymers may have excellent mechanical properties, thermal stability or optical properties, etc., and have potential applications in many high-end fields such as aerospace and electronic devices. For example, in the manufacture of high-performance electronic packaging materials, the polymer generated by the compound participating in the reaction can effectively improve the insulation and heat resistance of the material and ensure the stable operation of electronic devices.
In agricultural chemistry, it can be used as an important component in the synthesis of new pesticides. After rational molecular design and modification, the synthesized pesticides may have the characteristics of high efficiency, low toxicity and environmental friendliness, which will help to precisely kill pests and diseases, while reducing the adverse impact on the environment and the harm to non-target organisms, thus promoting the sustainable development of agriculture.

What are the physical properties of N- [3- (2-hydroxyethyl) phenyl] guanidine

For N - [3- (2-furanomethyl) benzyl] amine, its physical properties are not worth exploring. For this compound, the external properties are often either solid or liquid. If it is solid, it is mostly crystalline, or dense, and the color depends on its degree and content. The color is often transparent to the color of the crystal. If it is a liquid, it has a certain fluidity, and the molecular force and viscosity are different.
Its melting temperature is also important for physical properties. Because the molecule contains groups such as aromatic and amine groups, the molecular force is very important. The common action of the aromatic group is to increase the force of the molecules, and the amine group can form a hydrophobic group, which makes the melting-boiling phase high. However, the melting-boiling value still depends on the molecular quality and the surrounding environment.
In terms of solubility, this compound has a high solubility in the non-hydrophobic solution due to the amine group containing water and the hydrophobic aromatic part. In the soluble solution such as alcohol, the amine group can form an alcohol molecule, so it has a certain solubility; in the non-soluble solution such as alkane, the solubility is low due to the hydrophobic action of aromatic group.
Density also depends on one of its characteristics, usually between the densities of similar compounds. It is affected by the molecular weight and the molecular weight. Therefore, the physical properties of this N- [3- (2-furanomethyl) benzyl] amine are determined by its molecules, and are of great importance in the study of polymorphism and related fields.

Is the chemical property of N- [3- (2-hydroxyethyl) phenyl] guanidine stable?

The chemical properties of N - [3- (2 -methoxy) phenyl] amide are quite stable. In the structure of this compound, the amide group is a part with specific chemical activity, but the surrounding phenyl and methoxy structures have a significant impact on its stability.
Phenyl group, as an aromatic ring, has a conjugated system, which can disperse the electron cloud, which can reduce the overall energy of the molecule and improve the stability. Methoxy group is attached to the phenyl group, because the oxygen atom has lone pairs of electrons, it can have electronic effects with the phenyl group. The conjugation effect of its electron-giving can increase the density of the electron cloud of the benzene ring and further stabilize the molecular structure.
Furthermore, the characteristics of the amide bond itself are also related to the stability of the compound. The carbon-nitrogen double bond in the amide bond forms a conjugate with the lone pair of electrons on the nitrogen atom to form a planar structure, which increases the rigidity of the molecule and makes its chemical properties more stable. This structure makes the amide bond more difficult to be easily attacked and destroyed by general chemical reagents.
In common chemical environments, N - [3- (2-methoxy) phenyl] amides are usually not prone to spontaneous decomposition or rapid chemical reactions. Under normal temperature and pressure, they can be stored for a long time without significant chemical changes. However, in the case of specific conditions of strong acidity, strong alkalinity or special catalytic activity, its stability may be challenged, and amide bonds or reactions such as hydrolysis occur, resulting in changes in molecular structure. In general, the chemical properties of N - [3 - (2 - methoxy) phenyl] amide are stable under normal conditions.

What are the precautions for N- [3- (2-hydroxyethyl) phenyl] guanidine in the production process?

In the production process of N - [3- (2 -cyanoethyl) phenyl] amide, many key matters need to be paid attention to.
The first priority is the selection and control of raw materials. High-quality and pure raw materials are the basis for ensuring the quality of the product. As far as cyanoethyl-related raw materials are concerned, their purity and impurity content have a profound impact on subsequent reactions. Too many impurities may cause frequent side reactions, reduce the purity of the product, or affect the reaction rate and yield. Therefore, suppliers must be strictly selected when purchasing, and various indicators of raw materials need to be carefully tested after receiving the goods.
Precise control of reaction conditions is also crucial. Temperature, pressure, reaction time, and catalyst dosage are all key variables that affect the reaction process and product quality. If the temperature is too high, the reaction may be too violent, causing the product to decompose or produce more by-products; if the temperature is too low, the reaction rate will be slow, time-consuming and inefficient. The regulation of pressure cannot be ignored either. Some reactions require a specific pressure environment to ensure that the reaction advances in the expected direction. If the reaction time is not properly controlled, or the reaction is incomplete, the product yield is damaged, or the reaction is overreacted, the product quality will decline. Although the amount of catalyst used is small, it has a significant impact on the reaction rate. If the amount is too much or too little, it will be difficult to achieve the ideal reaction effect.
Furthermore, the selection and maintenance of reaction equipment cannot be ignored. The material of the equipment needs to be compatible with the reactive material to prevent corrosion from causing equipment damage, or introducing impurities to affect the quality of the product. Regularly clean, overhaul and calibrate the equipment to ensure that it is in good operating condition. If the sealing performance of the reactor needs to be checked regularly to avoid leakage, affect the reaction environment and cause safety hazards.
Safety protection in the production process is also a top priority. Cyanoethyl-related compounds may have certain toxicity and danger, and safety procedures must be strictly followed during operation. Operators should be equipped with appropriate protective equipment, such as gas masks, protective gloves and protective clothing, to prevent contact with or inhalation of harmful substances. The production site should be equipped with good ventilation facilities to discharge harmful gases in time and reduce the concentration of harmful substances in the workshop. At the same time, in response to possible safety accidents, it is necessary to formulate and improve emergency plans and conduct regular drills.
Finally, the separation and purification of the product also need to be treated with caution. Select appropriate separation methods, such as distillation, extraction, crystallization, etc., to obtain high-purity products. During the separation process, the control of operating conditions is also critical, otherwise the product may be lost or the purity cannot be reached. The purified product needs to be strictly tested to ensure that all indicators meet relevant standards and requirements.

What are the effects of N- [3- (2-hydroxyethyl) phenyl] guanidine on the environment?

The impact of N - [3- (2 -cyanoethyl) phenyl] on the environment is quite complex, and it is explained in the words of "Tiangong Kaiwu".
If this compound is released in the natural environment, the first to bear the brunt is the soil. Soil is the root of all things, so this substance may change the physical and chemical properties of the soil. The chemical groups it contains may react with minerals and organic matter in the soil, causing soil pH imbalance and impaired fertility. And it may have a certain persistence in the soil and is not easy to degrade. Over time, the soil structure will be damaged, causing plant growth to be hindered, root system development will be stunted, and crop yield and quality will be affected.
Furthermore, it also has an impact on water bodies. If it flows into rivers, lakes and seas, it may interfere with aquatic ecosystems. Groups such as cyanoethyl may be toxic to aquatic organisms, causing the death of fish, shellfish and other organisms, and destroying the ecological balance of water. At the same time, this substance may affect the self-purification ability of water bodies, reduce the dissolved oxygen content in water, deteriorate water quality, and endanger the safety of human drinking water sources.
The atmospheric environment is also not immune. Although it mainly does not exist in gaseous state, in the process of production and transportation, if it is not disposed of properly, small particles may evaporate into the atmosphere, enter the human body through the respiratory tract, and damage the respiratory system. And in the atmosphere or participate in photochemical reactions, generate secondary pollutants and aggravate air pollution.
In summary, the impact of N - [3- (2-cyanoethyl) phenyl] on the environment is multi-faceted and severe. During its production, use and disposal, appropriate measures should be taken to reduce its harm to the environment and maintain ecological tranquility.