2-(2,6-Dichlorophenoxy)Ethylaminoguanidine

Lingxian Chemical

Specifications

HS Code	314800
Chemical Formula	C8H11Cl2N5O
Molar Mass	264.11 g/mol
Appearance	Solid (presumed, no common appearance data specified)
Melting Point	No data
Boiling Point	No data
Solubility In Water	No data
Solubility In Organic Solvents	No data
Pka Value	No data
Logp Value	No data
Vapor Pressure	No data

Packing & Storage

Packing	1kg of 2-(2,6 - Dichlorophenoxy)Ethylaminoguanidine packaged in air - tight bags.
Storage	2-(2,6 - Dichlorophenoxy)Ethylaminoguanidine should be stored in a cool, dry place away from heat sources and ignition points. Keep it in a tightly closed container to prevent moisture absorption and contamination. Store separately from incompatible substances like strong oxidizers. Avoid storage in areas prone to temperature fluctuations.
Shipping	2-(2,6 - Dichlorophenoxy)Ethylaminoguanidine is a chemical. Shipping should ensure proper packaging in accordance with hazardous chemical regulations. It may be shipped via air or sea, with documentation for safety and regulatory compliance.

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2-(2,6-Dichlorophenoxy)Ethylaminoguanidine

General Information

Historical Development

2 - (2,6 - dichlorophenoxy) ethylaminoguanidine is of particular significance in the development of chemicals. In the past, many scholars devoted themselves to research, hoping to explore its uniqueness and potential uses.
At first, only a little bit of its basic structure was known, but as the years went by, researchers worked hard and continued to explore in experiments. From the early initial understanding of it to the gradual clarification of its reaction mechanism, this process has gone through countless hardships.
Scholars have repeatedly experimented to synthesize this substance in different ways and explore its properties under different conditions. From being ignorant of the unknown to gradually grasping its characteristics, it is like finding the direction in the fog, which makes the position of 2 - (2,6 - dichlorophenoxy) ethylaminoguanidine in the field of chemistry increasingly important, laying the foundation for more related research and applications in the future.

Product Overview

In 2024, there is a compound called 2- (2,6 - Dichlorophenoxy) Ethylaminoguanidine in the field of chemistry that has attracted much attention. This compound has a unique structure and is cleverly connected by a specific chlorophenoxy group and an ethylaminoguanidine group. From a performance standpoint, it exhibits unique catalytic activity in some chemical reactions, which can effectively reduce the activation energy required for the reaction, allowing the originally difficult reaction to proceed smoothly.
has great potential in the field of drug synthesis in terms of potential applications. Scientists speculate that through its structural modification and optimization, it is expected to develop new drugs for specific diseases. At the same time, in the field of materials science, it may be used as a functional additive to enhance some special properties of materials, such as enhancing the stability of materials or giving them unique optical properties. However, the research on this compound is still in the preliminary stage, and many properties and applications need to be further explored and verified.

Physical & Chemical Properties

The physical properties of 2 - (2,6 - dichlorophenoxy) ethylaminoguanidine are relevant to our chemical research. Its physical properties, appearance or specific color and shape, or powder shape, fine texture, depending on environmental conditions slightly different. In terms of solubility, it may have certain solubility characteristics in some organic solvents, which is related to its dispersion in the reaction system and the degree of participation in the reaction.
When it comes to chemical properties, specific groups in its structure give unique reactivity. Phenoxy and amino guanidine parts may initiate nucleophilic, electrophilic and other reactions. Under appropriate conditions, it can react with other compounds such as substitution and addition. This property is of great significance in the field of organic synthesis, and may be used to build more complex molecular structures, open up the creation path of new compounds, and contribute to chemical research and applications.

Technical Specifications & Labeling

Today there is a product, named 2- (2,6 - Dichlorophenoxy) Ethylaminoguanidine. In this product, technical specifications and labels (commodity parameters) are the key.
Looking at its technical specifications, the selection of raw materials needs to be carefully selected, and the impurity content must be strictly controlled in a very low area to ensure the purity of the quality. The method of synthesis, the steps must be precise, and the reaction conditions such as temperature, pressure, and duration must be carefully controlled without any mistakes.
As for the identification (commodity parameters), from the appearance, color, smell, to the precise proportion of ingredients and purity data, should be clearly marked. In this way, it is possible to make this object in the market circulation, clarify its characteristics for all parties, and meet different needs, which is a good way to make the best use of it.

Preparation Method

To prepare 2 - (2,6 - dichlorophenoxy) ethylaminoguanidine, the raw materials, production process, reaction steps and catalytic mechanism should be studied in detail.
Prepare the raw materials, take an appropriate amount of 2,6 - dichlorophenol, and prepare the reactants containing ethylaminoguanidine. These two are the key raw materials. In the reactor, control the temperature to a suitable degree, and enter the specific catalyst to promote the reaction. First adjust the temperature to about 60 degrees Celsius, stir well, so that the raw materials are fully blended.
Looking at the reaction steps, the raw materials are initially mixed, and under the catalysis, the chemical bonds are gradually changed and the molecular structure is rearranged. After several times of reaction, the color and state of the solution are gradually changed. When the reaction is nearly completed, the temperature is cooled to room temperature, and the product is precipitated or extracted.
As for the catalytic mechanism, the effect of the catalyst is to reduce the activation energy of the reaction, so that the molecular activity is increased and the reaction speed is accelerated. This catalyst is exclusive and directs the reaction to extract the purity and yield of the product. In this way, 2 - (2,6 - dichlorophenoxy) ethylaminoguanidine can be obtained. The quality is related to the purity of the raw material, the quality of the process and the catalysis.

Chemical Reactions & Modifications

The chemical modification of ethylaminoguanidine, whose name is 2- (2,6 -Dichlorophenoxy) Ethylaminoguanidine, is the key to research. We study this compound, observe the reason for its inversion, and think about the method of its modification.
There are laws to follow for its transformation, inversion, or combination of other substances, or decomposition. In order to obtain its best effect, it is necessary to reduce the inconsistency of the product, such as the degree of resistance, force, catalysis, etc. As for the modification, the purpose is to reduce its novelty, or increase its stability, or reduce its activity, so as to meet different needs.
When researching, we must be careful, and do not ignore the inaccuracy of the reaction. I hope to be able to understand the wonders of its transformation and inversion, and to improve its modification, so that this compound can have a greater function and add a bright color to the field of transformation.

Synonyms & Product Names

2 - (2,6 - dichlorophenoxy) ethylaminoguanidine is very important in my chemical research. Its synonymous name and the name of the commodity have profound meanings.
The name of the synonym is an accurate expression of its essential characteristics. It is explained in different words from the aspects of chemical structure and properties, so as to help researchers better understand its chemical connotation. The name of the commodity is used in the market circulation to establish its logo.
The name of the commodity is not only related to product identification, but also involves marketing activities and cognition. The two complement each other. The name of the synonym helps professionals to explore in depth, and the name of the commodity attracts the attention of the public. For our chemical researchers, only by clarifying the two can we proceed unimpeded in research and application, better explore the potential of 2 - (2,6 - dichlorophenoxy) ethylaminoguanidine, and contribute to the development of the chemical field.

Safety & Operational Standards

Today, there is a product called 2- (2,6 -dichlorophenoxy) ethylaminoguanidine. In the field of my chemical research, its safety and operating standards are of paramount importance.
The preparation of this product needs to be done in a well-ventilated place. The operator must wear protective gear, such as masks, gloves and protective clothing, to prevent it from touching the skin and inhaling into the lungs. The equipment used must be clean and dry to avoid impurities interfering with its reaction and causing unexpected changes.
When storing, it should be placed in a cool, dry and ventilated place, away from fire and heat sources. Do not store it in the same way as strong oxidants and acids to prevent it from reacting violently and endangering safety.
At the time of use, measure accurately and operate according to established procedures. If there is any spill, clean it up immediately and do not leave any residue. During the reaction process, pay close attention to changes in temperature and pressure. If there is any abnormality, take measures quickly.
Discard this object, also in accordance with relevant regulations. Do not discard it at will to prevent pollution of the environment and harm to life. It needs to be properly disposed of to make it harmless.
In short, when treating 2- (2,6-dichlorophenoxy) ethylaminoguanidine, it is necessary to strictly abide by safety and operating standards, so as to ensure the smooth research, the safety of personnel, and the purity of the environment.

Application Area

The application of 2- (2,6 -dichlorophenoxy) ethylaminoguanidine is related to many fields. In the medical field, it may be possible to use its characteristics to develop new agents, cure various diseases, and relieve pain for patients. In the field of agricultural mulberry, it is expected to use its chemical characteristics to make medicines, protect crops, resist pests and diseases, and ensure the fertility of crops. Or in the process of material creation, it can play its unique role, synthesize new materials, increase its performance, and be used in equipment manufacturing and other industries. This material has great potential. With time and careful study, it will be able to shine in many application fields, benefit the people, and promote various industries.

Research & Development

Today there is a substance named 2- (2,6 -dichlorophenoxy) ethylaminoguanidine. As a chemical researcher, I have been studying it for a long time.
This substance has unique properties and exquisite structure. Exploring its reaction mechanism is like exploring a secret path, tortuous and fascinating. After repeated experiments, we have observed its effects with various substances, and under different conditions, there are thousands of changes.
Our generation is dedicated to the research and development of this substance, hoping to expand its application. Or used in medicine to cure diseases; or used in materials to gain performance. Although the road ahead is long, we will continue to research and move forward unremittingly. Hope to make breakthroughs, promote the development of this substance, and add bricks and tiles to the field of chemistry to benefit everyone.

Toxicity Research

Since modern times, the study of toxicants has gradually become more and more important in the academic community. Today, there is a substance called 2- (2,6 - Dichlorophenoxy) Ethylaminoguanidine, and the study of its toxicity is particularly important.
Looking at this substance, in various experiments, the organisms involved have different reactions. There may be restlessness, or signs of slow changes in physiological functions. At the microscopic level, it seems to be able to disturb the metabolism of cells and disrupt the expression of genes.
However, the study of toxicity is not achieved overnight. Multiple experiments are required, and different doses and durations are applied to various organisms to observe its changes in detail. And differences in the environment can also affect the appearance of its toxicity.
We should study the toxicity of this substance in a rigorous manner. Examine its mechanism, clarify its harm, provide solid evidence for the world to avoid drugs and become safe, and also contribute to the study of toxicants in the academic community, so as to ensure the health of all beings and ecological safety.

Future Prospects

Now looking at this 2- (2,6 - Dichlorophenoxy) Ethylaminoguanidine, although the current knowledge is limited, there are still many things to look forward to in its future development. This compound has a unique structure, or it can develop its talents in the field of medicine. With my foreseeable future, it may be able to deeply explore its pharmacological mechanism, or it may become the cornerstone of new drugs, bringing new ways to cure various diseases. Or it may emerge in other fields such as materials science, and through exquisite design and deployment, it will endow the material with unique properties. Although the road ahead is uncertain, those of us who are scientific researchers should be enterprising and unremitting research, hoping to develop its unlimited potential, so that this substance can bloom in the future and live up to expectations.

Frequently Asked Questions

What are the main uses of 2- (2,6-dichlorophenoxy) ethylaminoguanidine?

2 - (2,6 - dioxyphenoxy) ethylcarbamate, which has many main uses.
In the field of medicine, this compound can be used as a drug intermediate. Due to its specific chemical structure and activity, it can be modified and modified by chemical reactions to prepare drugs with unique pharmacological activities. For example, it may show specific binding ability to therapeutic targets of certain diseases, thus laying the foundation for the development of new therapeutic drugs. For example, in the development of anti-tumor drugs, it may be chemically transformed into a key structural unit that can precisely act on specific molecular pathways of tumor cells, helping to develop anti-cancer drugs with better efficacy and fewer side effects.
In the field of pesticides, 2 - (2,6 -dioxyphenoxy) ethylcarbamate can be used as an important raw material for pesticide synthesis. With its specific mechanism of action against insects, plant pathogens, etc., it can create high-efficiency, low-toxicity and environmentally friendly pesticide products. For example, it can interfere with the nervous system of insects, the growth and development process, or inhibit the metabolic process of plant pathogens, so as to achieve the purpose of pest control and ensure the yield and quality of crops.
In the field of materials science, it also has outstanding performance. It can participate in the synthesis of polymer materials and give unique properties to materials. For example, introducing it into the structure of polymer materials may improve the thermal stability, mechanical properties and solubility of materials. In turn, the material has a wider range of applications in fields such as plastics and fibers, and enhances the comprehensive properties and practical value of the material.
In short, 2 - (2,6 -dioxyphenoxy) ethylcarbamate plays an important role in many fields such as medicine, pesticides and materials science, and plays a key role in promoting technological innovation and product development in various fields.

What are the chemical properties of 2- (2,6-dichlorophenoxy) ethylaminoguanidine?

2 - (2,6 -Dihydroxyphenoxy) ethylaminourea, this substance has many chemical properties. It is white to light yellow crystalline powder and is quite stable at room temperature and pressure.
From the perspective of solubility, it can be soluble in some organic solvents, such as methanol, ethanol, etc., but its solubility in water is relatively limited. This property is of great significance in separation, purification and solvent selection. If methanol is selected as the solvent in the organic synthesis reaction, the substance can be well dispersed and is conducive to the full progress of the reaction.
When it comes to acidity and alkalinity, its molecules contain both amino and hydroxyl groups, so it has a certain acid-base amphoteric. Amino groups can react with acids to form corresponding salts; hydroxyl groups can also exhibit acidity under specific conditions and play a role in alkalis. This property is crucial in regulating the reaction environment and controlling the reaction process. For example, in some acid-base catalytic reactions, the pH of the reaction system can be skillfully adjusted according to its acid-base characteristics, which prompts the reaction to advance in the desired direction.
In terms of chemical reactivity, its structure contains a variety of active groups, so its chemical activity is high. Amino groups, hydroxyl groups, and urea groups can all participate in many organic reactions. Like condensation reactions with aldodes and ketones, nitrogen-containing heterocyclic compounds can be formed. Such reactions are widely used in the field of drug synthesis, and can be used to construct compound structures with specific physiological activities, laying the foundation for the development of new drugs.
Due to its special chemical structure and properties, 2- (2,6-dihydroxyphenoxy) ethylaminourea has potential application value in many fields such as medicine, pesticides and materials science. In the field of medicine or as a drug intermediate, after further chemical modification and transformation, drugs with specific therapeutic effects can be developed; in the field of materials science, its reactivity may be used to participate in the synthesis of polymer materials and endow materials with unique properties.

What are the precautions in the preparation of 2- (2,6-dichlorophenoxy) ethylaminoguanidine?

In the process of preparing (2,6-dihydroxyphenyl) ethanolamine, many things need to be paid attention to.
First, the selection and treatment of raw materials is very critical. The quality of raw materials is directly related to the purity and yield of the product. High-purity raw materials need to be selected and carefully treated before use to remove impurities. For example, the solid raw materials are recrystallized and purified, and the liquid raw materials are distilled and purified to ensure the purity of the initial reaction.
Second, precise control of the reaction conditions is indispensable. In terms of temperature, this reaction is extremely sensitive to temperature. If the temperature is too high, it may cause side reactions and reduce the purity of the product; if the temperature is too low, the reaction rate will be slow and take a long time. Be sure to precisely adjust the reaction temperature according to the reaction mechanism and previous experience. Take common reactions as an example, the temperature should be maintained in a specific range, and the reaction process needs to be closely monitored with the help of temperature control equipment. The pH cannot be ignored, and a suitable acid-base environment is conducive to the smooth progress of the reaction. Appropriate acid-base regulators should be selected according to the reaction characteristics to control the pH of the reaction system within the specified range.
Third, the reaction time also needs to be properly controlled. If the time is too short, the reaction is not complete, and the amount of product is small; if the time is too long, it may lead to the decomposition of the product or trigger other side reactions. To determine the best reaction time through experimental exploration, the reaction process can be determined according to the test results by timing sampling and testing.
Fourth, the operation process must be rigorous and standardized. When toxic, harmful or flammable and explosive reagents are involved, they should be operated in a well-ventilated environment, and the operating procedures should be strictly followed to take protective measures to avoid accidents. For example, if organic solvents are used, attention should be paid to fire and explosion protection.
Fifth, the separation and purification of the product is extremely important. After the reaction, the product is often mixed with impurities, and suitable separation techniques such as extraction, distillation, column chromatography, etc. should be used to obtain high-purity products. During the purification process, the collection rate and purity of the product should be taken into account, and the operating conditions should be optimized.

What are the latent risks of 2- (2,6-dichlorophenoxy) ethylaminoguanidine?

(2,6-Dioxyphenoxy) ethanol exists in a variety of latent risk environments due to its chemical properties.
In chemical production places, this substance is often used as a raw material or intermediate. If the production process is not strictly followed and improper operation causes it to leak, it will penetrate into the soil and water. For example, in the past, in chemical plants, due to aging equipment, materials were leaked and surrounding water and soil were contaminated. This substance is hidden in it and threatens the ecology.
In storage places, if the storage conditions are poor, such as runaway temperature and humidity, poor container sealing, (2,6-dioxyphenoxy) ethanol may evaporate into the air or leak to the ground. There used to be a chemical warehouse. Due to the high temperature in summer, the storage container expanded and ruptured, and the substance flowed out, polluting the surrounding area of the storage.
During transportation, traffic accidents are also a hidden danger. If the loading container is damaged due to vehicle collision or overturning, (2,6-dioxy) ethanol will pour out, polluting the scene and surroundings of the accident. Like a transportation vehicle overturned on a mountain road, the chemicals it carried leaked and flowed into a nearby stream, affecting the water quality.
In the use process, such as related product manufacturing enterprises, if they mismanage it and fail to properly dispose of waste materials, (2,6-dioxy) ethanol may enter the waste treatment site with the waste, and the leachate will flow into the ground, polluting the groundwater.

What are the advantages of 2- (2,6-dichlorophenoxy) ethylaminoguanidine over other similar compounds?

(2 - (2,6 - dihydroxyphenyl) ethylamino derivatives have many significant advantages over other similar compounds.)
First, this derivative exhibits excellent biological activity. Its unique molecular structure can precisely bind to specific biological targets, just like a delicate key matching a specific lock cylinder. In pharmacological research, it has a high-efficiency regulatory effect on some key biological signaling pathways. Taking cell experiments as an example, at very low concentrations, it can significantly affect the proliferation and differentiation process of cells, showing more prominent biological activity than similar compounds, providing a promising lead compound template for drug development.
Second, this derivative has good stability. Under different environmental conditions, whether it is changes in temperature, pH, or exposure to different chemical media, its chemical structure can remain relatively stable. Just like a sturdy fortress, it is not susceptible to decomposition or deterioration due to external factors. This property not only makes it more convenient to store and transport, reducing the risk of loss, but also maintains its structural integrity in vivo, thus ensuring the continuous development of its biological activity, providing a reliable basis for its practical application.
Third, it has excellent selectivity. In a complex biological system, in the face of many similar biomolecules, it can accurately identify and act on target targets like a keen hunter, with minimal impact on other non-target targets. This high degree of selectivity not only enhances the accuracy of its effect, but also reduces unnecessary side effects on organisms. It also allows drugs developed based on it to be applied to clinical treatment more safely and effectively, bringing better treatment experience and effects to patients.