1-Methyl-2-Nitro-3-(Tetrahydro-3-Furylmethyl)Guanidine

Lingxian Chemical

Specifications

HS Code	828320
Chemical Formula	C7H14N4O3
Molecular Weight	202.21 g/mol

Packing & Storage

Packing	100 - gram bottle packaging for 1 - Methyl - 2 - Nitro - 3 - (Tetrahydro - 3 - Furylmethyl)Guanidine.
Storage	1 - Methyl - 2 - Nitro - 3 - (Tetrahydro - 3 - furylmethyl)guanidine should be stored in a cool, dry, well - ventilated area, away from heat sources and ignition points. Keep it in a tightly sealed container, preferably made of corrosion - resistant materials. Store separately from oxidizing agents and reducing substances to prevent potential chemical reactions.
Shipping	The chemical 1 - Methyl - 2 - Nitro - 3 - (Tetrahydro - 3 - Furylmethyl)Guanidine should be shipped in accordance with strict chemical safety regulations. Use appropriate, sealed containers to prevent leakage and ensure proper labeling for hazard identification during transit.

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1-Methyl-2-Nitro-3-(Tetrahydro-3-Furylmethyl)Guanidine

General Information

Historical Development

1 - Methyl - 2 - Nitro - 3 - (Tetrahydro - 3 - Furylmethyl) Guanidine, its historical evolution, has never been seen in ancient times. At the beginning, the research of chemistry, focusing on common things, did not reach this.
In modern times, chemistry has flourished, and researchers have explored the secrets of matter. Everyone is seeking new things in various reactions and structures. After years of research, repeated experiments, analysis of the structure, and adjustment of the reaction, this 1 - Methyl - 2 - Nitro - 3 - (Tetrahydro - 3 - Furylmethyl) Guanidine is finally obtained.
Since its birth, the chemical community has gathered its attention. Because of its unique structure and properties, it has potential in the fields of medicine, chemical industry and so on. Researchers then follow this path to explore its uses in order to benefit the world, and its future path is waiting to be explored.

Product Overview

1 - Methyl - 2 - Nitro - 3 - (Tetrahydro - 3 - Furylmethyl) Guanidine is a chemical that we have dedicated ourselves to studying. Its structure is unique, composed of methyl, nitro and tetrahydrofuranyl methyl groups ingeniously combined. The characteristics of this compound are unique, and under specific conditions, it exhibits unique chemical activity.
The preparation method requires multiple careful processes, and each step requires precise control of the reaction conditions, such as temperature, pH and reaction time. If there is a slight difference, the product will not be pure. It has a wide range of uses, in the field of pharmaceutical research and development, or can be used as a lead compound to help create new drugs; in the field of materials science, it may also give materials unique properties.
In my research, I focus on analyzing its molecular properties and reaction mechanism, hoping to gain in-depth insights, pave the way for its further application and expansion, so that it can shine in more fields and benefit the world.

Physical & Chemical Properties

1-Methyl-2-Nitro-3- (Tetrahydro-3-Furylmethyl) Guanidine This substance is related to its physical and chemical properties and is very important. Its shape or powder state, the color is white and pure, and the appearance is delicate. Smell it, or have a little special smell, but it is not pungent.
In terms of its solubility, it may have a certain solubility in water, depending on the water temperature and stirring conditions. It also has different performance in organic solvents, such as ethanol and acetone. In terms of thermal stability, in case of high temperature, or decomposition changes, but the specific temperature needs to be carefully explored.
The chemical activity of this compound can react with many reagents. The characteristics of the functional groups in its structure determine that it can be used as a key raw material in organic synthesis, or can be used as a key raw material to participate in the construction of new compounds, adding many possibilities for chemical research. The study of its physical and chemical properties has far-reaching significance in the fields of chemical industry and medicine.

Technical Specifications & Labeling

1-Methyl-2-Nitro-3- (Tetrahydro-3-Furylmethyl) Guanidine The technical specifications and identification (product parameters) of this product are very important. Its specifications need to be accurate, which is related to the quality of the product. The label is clear to know its source and characteristics.
Watch this product, the technical specifications determine its physical and chemical properties. Such as purity geometry, it is related to the reaction effect; impurity content, but also affect performance. This needs to be determined by accurate methods and strictly implemented in accordance with regulations.
In the logo, the product parameters are detailed. The name is accurate and cannot be ambiguous; the source can be traced to prove reliability. In this way, it is possible to make this object in front of the user, with full characteristics and no risk of misuse, so as to achieve its function and live up to the power of research and development.

Preparation Method

The preparation of 1 - Methyl - 2 - Nitro - 3 - (Tetrahydro - 3 - Furylmethyl) Guanidine is related to the raw materials and production process, reaction steps and catalytic mechanism.
The selection of raw materials needs to be excellent. According to the ancient method, high-quality starting materials should be used to maintain the purity of the foundation. The production process must follow strict rules, and the material ratio, temperature control, and duration are all key.
The reaction steps are orderly. First make a certain number of materials blend in a specific container, urge it with a moderate heat, observe its changes, and wait for the reaction to stabilize. Then add other substances and continue the reaction. In the meantime, observe the color, smell the smell, and know the depth of the process.
The catalytic mechanism cannot be ignored. Selecting a suitable catalyst, such as a stone powder or a liquid in the ancient method, can promote the reaction and improve the quantity and quality of the product. In this way, according to this preparation method, pure 1-Methyl-2-Nitro-3 - (Tetrahydro-3-Furylmethyl) Guanidine can be obtained.

Chemical Reactions & Modifications

Today there is a substance called 1-Methyl-2-Nitro-3- (Tetrahydro-3-Furylmethyl) Guanidine. In the field of chemistry, its reaction and modification are related to many wonders.
Looking at its chemical reaction, every step follows the laws of chemistry. The clutching of chemical bonds and the rearrangement of atoms are all fixed. If the reactants meet, or due to the transfer of electrons, or due to the adaptation of space, they will react. When this substance participates in the reaction, all parts of its structure have their own uses. Groups such as methyl, nitro, and tetrahydrofuranyl methyl, or power carriers, or electrons, interact to make the reaction direction and rate different.
On its modification, the purpose is to optimize the performance. Or change its solubility to make it easier to disperse in specific solvents; or increase its stability to resist external environmental disturbances. When modifying, it is necessary to understand the microstructure of its molecular structure and use ingenious methods to add or subtract atoms or groups. In this way, this chemical can be used in medicine, materials and other fields to play a greater role and benefit the world.

Synonyms & Product Names

1 - Methyl - 2 - Nitro - 3 - (Tetrahydro - 3 - Furylmethyl) Guanidine, its synonymous name and the name of the commodity, are very important in the field of my chemical research. Chemical substances have different names but are the same. If you want to understand their nature and use, you must first correct their names.
Guanfu 1 - Methyl - 2 - Nitro - 3 - (Tetrahydro - 3 - Furylmethyl) Guanidine, or other names are synonymous with it. Although its chemical conformation is specific, the title may vary depending on the region and research emphasis. The name of a commodity is also used by merchants to recognize its physical characteristics and facilitate the cognition of the world.
For our researchers, we can carefully investigate the names of synonyms and commodities. Through the application of this object in various fields, we can clarify its value in chemical industry, medicine, etc. To accurately grasp its name is to mention it before in-depth research and rational application. Make sure that the name matches the truth, so that we can explore its profound heritage, and do our best for the advancement of chemistry and the benefit of people's livelihood.

Safety & Operational Standards

1 - Methyl - 2 - Nitro - 3 - (Tetrahydro - 3 - Furylmethyl) Guanidine safety and operating specifications
Fu 1 - Methyl - 2 - Nitro - 3 - (Tetrahydro - 3 - Furylmethyl) Guanidine, chemical products are also related to safety and operating standards, which is of paramount importance.
For storage, choose a cool, dry and well-ventilated place. Do not mix with oxidants, acids, etc. to prevent unexpected chemical reactions. If the storage place is humid, it is easy to cause deterioration of this product or cause dangerous reactions. Therefore, it is necessary to keep the storage environment suitable.
As for the operation, the operator must wear professional protective clothing, such as protective clothing, protective gloves, etc., and wear a protective mask to prevent inhalation or contact with this product and harm the body. The operation room should also be well ventilated to disperse harmful gases that may be generated.
During use, precise control of dosage is essential. Excessive use not only wastes raw materials, but also may cause side reactions and lead to dangerous situations. If you accidentally come into contact with this product and splash it on the skin, you should rinse it with plenty of water as soon as possible; if it enters the eyes, you must seek medical attention immediately after rinsing.
Furthermore, the disposal of waste should not be ignored. When in accordance with relevant regulations, it should be properly disposed of and should not be discarded at will to avoid polluting the environment.
In short, in the use and operation of 1 - Methyl - 2 - Nitro - 3 - (Tetrahydro - 3 - Furylmethyl) Guanidine, strict safety and operating practices are followed to ensure the safety of personnel and the environment.

Application Area

Today there is a thing named 1 - Methyl - 2 - Nitro - 3 - (Tetrahydro - 3 - Furylmethyl) Guanidine. The application field of this chemical substance is quite critical. In the field of medicine, it can be used as a healing agent to help heal diseases. In the industry of mulberry farming, it can be used as a medicine to promote growth and increase harvesting. In various industries, it can be used as a material for making things, and it can be used as a delicate product. Its use in all kinds of applications is expected to show extraordinary effects, to solve the needs of people's livelihood and help the prosperity of all industries. If it can be used well, it will definitely cause a lot of convenience and promote the progress of the world.

Research & Development

In recent years, I have been familiar with chemical substances, such as 1 - Methyl - 2 - Nitro - 3 - (Tetrahydro - 3 - Furylmethyl) Guanidine. This substance has unique characteristics, its molecular structure is exquisite, and it contains unique chemical activities.
I began to study this substance, first observing its physical properties, such as its color state, melting point, how it looks, and how it changes under different temperatures and pressures. Then explore its chemical properties, observe its response to various substances, and understand its reaction law.
is the field of its application, extensive data collection, and hands-on experiments. See it in the field of medicine, or can be used as a raw material to help the production of new drugs; in the chemical industry, it also has potential use, which can lay the foundation for the development of new products.
The research of this product is not achieved overnight, and problems often arise during it. However, I adhere to the heart of research and try again and again. Although I have achieved something today, I know that there is still a long way to go. I must make continuous progress in the future, hoping to promote the wider development of this chemical product and add luster to the industry.

Toxicity Research

Study on the toxicity of 1 - Methyl - 2 - Nitro - 3 - (Tetrahydro - 3 - Furylmethyl) Guanidine
Taste the importance of medical science, related to the investigation of physical properties, toxicology, especially important. Today there is 1 - Methyl - 2 - Nitro - 3 - (Tetrahydro - 3 - Furylmethyl) Guanidine, our generation should examine its toxicity in detail.
Study its toxicity, first observe its symptoms to living beings. Try it with all kinds of living beings and observe the changes in their diet, behavior and expression. Or see the subject, the diet is gradually sparse, the movement is slow, and the expression is sluggish, all of which are signs of toxicity.
Re-investigate the path of its entry into the body, or eat it by mouth, or seep it through the skin, or breathe it in. After entering the body, it flows all over the body, and all the internal organs involved are affected by it. Look at the damage to the internal organs, or the blood that damages the liver, or the main water that hurts the kidneys, or the gods that disrupt the mind.
And test the effect of its long-term exposure. If the living being touches this thing for a long time, the body will gradually weaken, the reproduction will be blocked, and the diseases will multiply. From this point of view, the toxicity of 1 - Methyl - 2 - Nitro - 3 - (Tetrahydro - 3 - Furylmethyl) Guanidine should not be underestimated, and it should be avoided carefully to protect the health of life.

Future Prospects

The future development is about 1 - Methyl - 2 - Nitro - 3 - (Tetrahydro - 3 - Furylmethyl) Guanidine. Looking at today, the research is getting deeper, but there are still many problems to be solved. Although the method of synthesis has been obtained, it still needs to be refined in order to achieve high efficiency and environmental protection. The field of its application still needs to be expanded. The road of medicine may find new opportunities to heal various diseases; the world of agriculture and planting may help it thrive and increase the hope of harvest. The road of scientific research is long, and my generation should explore unremitting with perseverance. With time, it will be able to make this thing play a perfect role, and it will have remarkable achievements in medicine, agriculture and planting, etc., which will benefit the world. This is the grand scene that can be seen in the future.

Frequently Asked Questions

What is 1-Methyl-2-Nitro-3- (Tetrahydro-3-Furylmethyl) Guanidine?

1-Methyl-2-nitro-3- (tetrahydro-3-furanylmethyl) guanidine is an organic compound. Looking at its name, the outline of its structure can be known. "1-methyl", shown in the structure of guanidine, is connected to a methyl group at 1 position. This methyl group is connected to the guanidine group main body with a single carbon-carbon bond, which increases the hydrophobicity of its molecules and affects both chemical reactions and physical properties. " 2-Nitro ", the 2-position has a nitro functional group, and the nitro group has strong electron-absorbing properties, which can cause changes in the distribution of molecular electron clouds, affect its chemical activity, and often make the compound more reactive, or participate in oxidation, substitution and other reactions under specific conditions." 3- (tetrahydro-3-furanyl methyl) ", Table 3 is connected with tetrahydro-3-furanyl methyl groups. The tetrahydrofuran ring has a certain stability and unique spatial structure. This cyclic structure and its attached methyl groups endow the molecule with specific spatial configuration and stereochemical properties, or affect its interaction with other molecules, such as hydrogen bonds, van der Waals forces, etc. Such compounds may have important uses in the field of organic synthesis and can be used as intermediates to transform into more complex and functional organic molecules through various chemical reactions, which are used in the research and production of medicine, pesticides, materials science, and many other fields.

What are the main uses of 1-Methyl-2-Nitro-3- (Tetrahydro-3-Furylmethyl) Guanidine?

1-Methyl-2-nitro-3- (tetrahydro-3-furanyl methyl) guanidine, this is an organic compound. Its main uses are quite extensive, in the field of medicine, or can be used as an intermediate in drug synthesis. Because the structure contains specific functional groups, or can be converted into pharmaceutical components with specific physiological activities by chemical reactions, it is helpful for disease treatment and drug development.
In the chemical industry, or play a key role in organic synthesis reactions. It can be used as a starting material or intermediate to participate in the preparation of complex organic compounds, laying the foundation for the synthesis of new materials and special chemicals, and promoting the innovation and upgrading of chemical products.
In the field of agriculture, or through rational design and modification, it has become an active ingredient in pesticides, veterinary drugs and other products. With its unique chemical properties, it realizes the effects of pest control, animal and plant growth, and provides assistance for agricultural production.
Because of the uniqueness of its chemical structure, in scientific research and exploration, it may become an important object to study the chemical reaction mechanism and explore new synthetic methods. Researchers use the study of its reaction characteristics to reveal chemical laws and contribute to the development of chemistry.

What are the synthesis methods of 1-Methyl-2-Nitro-3- (Tetrahydro-3-Furylmethyl) Guanidine?

The synthesis method of 1-methyl-2-nitro-3- (tetrahydro-3-furanylmethyl) guanidine has been known since ancient times. There are many methods, all of which require delicate operation to obtain this compound.
First, a specific furan derivative is used as the starting material. First, the furan derivative is cleverly reacted with a reagent containing methyl and nitro groups. This process requires precise control of the temperature, time and reagent dosage of the reaction. If the temperature is too high, it is easy to cause side reactions to cluster, and if it is too low, the reaction will be slow and the desired product will not be available. When the reaction is reached at the right time, an intermediate product is obtained. Then, the intermediate product is fused with the guanidine-containing reagent, and then through a series of steps such as purification and separation, careful treatment, or 1-methyl-2-nitro-3- (tetrahydro-3-furanyl methyl) guanidine can be obtained.
Second, other related compounds are also used as the starting point and converted through multiple steps. First, a specific group is introduced through a substitution reaction. In this step, a suitable catalyst needs to be selected to speed up the reaction process and ensure the correct direction of the reaction. Then, the addition and elimination reactions are followed to gradually build the required molecular structure. Each step of the reaction is like walking on thin ice, and a little difference will not lead to positive results. After the molecular skeleton takes shape, it is modified again, and groups such as methyl, nitro and tetrahydrofuranyl methyl are precisely introduced. Finally, the target product can be obtained after careful purification.
Furthermore, some novel synthesis concepts can be used. Seek a more environmentally friendly and efficient synthesis path guided by green chemistry. Or explore new catalysts to make the reaction conditions milder and reduce energy consumption and waste generation. Or use modern advanced synthesis technologies, such as microwave-assisted synthesis, ultrasonic-assisted synthesis, etc., to speed up the reaction rate and improve the purity and yield of the product. All these synthetic methods require repeated exploration and practice by chemists to achieve the delicate realm of synthesis, resulting in the 1-methyl-2-nitro-3- (tetrahydro-3-furanylmethyl) guanidine.

What are the physicochemical properties of 1-Methyl-2-Nitro-3- (Tetrahydro-3-Furylmethyl) Guanidine?

1-Methyl-2-nitro-3- (tetrahydro-3-furanylmethyl) guanidine, this physical property is quite complicated. Its appearance is often in the form of a white to light yellow powder, with a fine appearance and uniform texture.
When it comes to solubility, it is slightly soluble in water, but the state of dissolution is also affected by many factors, such as water temperature and stirring speed. If the water temperature is slightly higher and the stirring is strong, the dissolution is more smooth; if the water temperature is low and the stirring is slow, the dissolution is slightly delayed. In organic solvents, such as ethanol and acetone, its solubility is better, and it can be mixed with organic solvents to form a uniform state.
Its stability also needs to be carefully investigated. This substance can still survive stably at room temperature, normal pressure and dry conditions. However, if it encounters high temperature, the temperature rises to a specific limit, or encounters an open flame, it is easy to change, or cause decomposition, or risk combustion. If it is in a humid atmosphere, it may also react subtly with water vapor, affecting its purity.
As for the melting point, it has been measured by many experiments and is about a certain temperature range. This melting point characteristic is quite crucial when identifying and purifying this substance. Knowing its melting point can be used to determine its purity by means of melting point measurement. The purity is high, the melting point is accurate, and the melting range is narrow; if it contains impurities, the melting point may be offset, and the melting range will also be widened.
Its chemical activity cannot be ignored. Because its molecular structure contains specific groups, such as nitro and guanidine, it can react with a variety of chemical reagents. In case of some reducing agents, the nitro group may be reduced; in case of specific acids and bases, corresponding chemical reactions can also occur to generate other products.
All these physical properties need to be carefully considered when researching, producing and applying this compound, in order to make good use of its characteristics and avoid potential risks.

What are the precautions for 1-Methyl-2-Nitro-3- (Tetrahydro-3-Furylmethyl) Guanidine during use?

1-Methyl-2-nitro-3- (tetrahydro-3-furanyl methyl) guanidine, when using this product, there are many matters that must not be ignored.
First, safety is the first thing to bear the brunt. This product may be toxic and dangerous to a certain extent. When operating, it is necessary to strictly follow safety procedures. The operator is in front of suitable protective equipment, such as gloves, goggles, protective clothing, etc., to prevent it from contacting the skin and eyes, and to prevent inhalation of its dust or steam, so as to avoid the risk of poisoning. The workplace must be well ventilated. If there is any accidental contact, rinse with plenty of water as soon as possible and seek medical attention in time.
Second, the rules of storage should not be ignored. It should be stored in a cool, dry and well-ventilated place, away from fire and heat sources, and must not be mixed with oxidants, acids, alkalis, etc., to prevent violent chemical reactions and the risk of explosion.
Third, during use, precise operation is essential. According to specific uses and needs, accurately control the dosage and conditions of use. Due to different reactions or application scenarios, there are specific requirements for its purity, reaction temperature, reaction time, etc. If the dosage is improper, or the conditions do not match, it will not only be difficult to achieve the expected effect, but also cause unexpected situations.
Fourth, knowing the emergency plan is safe. Know in advance what to do in case of an emergency such as a leak or fire. In the event of a leak, quickly isolate the scene and restrict personnel from entering and leaving. Emergency responders need professional protective equipment to properly collect and clean up the spill to prevent pollution of the environment. In the event of a fire, appropriate fire extinguishing equipment should be selected according to its nature.