Methanone, (2-Butyl-3-Benzofuranyl)(4-(2-(Diethylamino)Ethoxy)-3,5-Diiodophenyl)-

Fengxi Chemical

Specifications

HS Code	843665
Chemical Formula	C30H35I2NO4
Molecular Weight	736.41

As an accredited Methanone, (2-Butyl-3-Benzofuranyl)(4-(2-(Diethylamino)Ethoxy)-3,5-Diiodophenyl)- factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

Packing & Storage

Packing	Packaging contains 500g of (2 - butyl - 3 - benzofuranyl)(4 - (2 - (diethylamino)ethoxy)-3,5 - diiodophenyl)methanone.
Storage	Store “Methanone, (2 - butyl - 3 - benzofuranyl)(4-(2-(diethylamino)ethoxy)-3,5 - diiodophenyl)-” in a cool, dry place away from heat sources and direct sunlight. Keep it in a well - ventilated area, preferably in a tightly - sealed container to prevent moisture and air exposure, which could potentially lead to chemical degradation. Store separately from incompatible substances.
Shipping	The chemical "Methanone, (2 - butyl - 3 - benzofuranyl)(4 - (2 - (diethylamino)ethoxy)-3,5 - diiodophenyl)-" must be shipped in accordance with strict hazardous materials regulations. Use appropriate, sealed containers and ensure proper labeling for safe transport.

Free Quote

Competitive Methanone, (2-Butyl-3-Benzofuranyl)(4-(2-(Diethylamino)Ethoxy)-3,5-Diiodophenyl)- prices that fit your budget—flexible terms and customized quotes for every order.

For samples, pricing, or more information, please call us at +8615371019725 or mail to sales7@bouling-chem.com.

We will respond to you as soon as possible.

Tel: +8615371019725

Email: sales7@bouling-chem.com

Methanone, (2-Butyl-3-Benzofuranyl)(4-(2-(Diethylamino)Ethoxy)-3,5-Diiodophenyl)-

General Information

Historical Development

Sadly, there is a thing today called Methanone, (2-Butyl-3-Benzofuranyl) (4- (2- (Diethylamino) Ethoxy) -3,5-Diiodophenyl) -, which is the object of chemical research. Tracing the historical development of its object, when the academic world started in the past, the understanding of this object was still shallow, and the research methods were limited.
However, the years pass by, the technology advances day by day, and the researchers study it unremitting. Or in the laboratory, carefully prepare the drug, repeat trial and error, and explore its chemical properties; or at the theoretical level, think deeply about its structure and expand the cognition with logical reasoning. After countless explorations, our generation began to have a clear understanding of its molecular structure and reaction characteristics, and knew its changes in various chemical reactions. This development process is like the dawn of a long night, finally seeing the light, making the mystery of this thing gradually unfold before the eyes of the world, adding to the treasure house of chemical research.

Product Overview

I recently developed a chemical product named "Methanone, (2-Butyl-3-Benzofuranyl) (4- (2- (Diethylamino) Ethoxy) -3,5-Diiodophenyl) -". This product has a unique structure and contains 2-butyl-3-benzofuran, 4- (2- (diethylamino) ethoxy) -3,5-diiodophenyl and other groups. Its physical and chemical properties are unique, and it may be useful in the fields of organic synthesis and drug development. After repeated experiments and investigations, some of its characteristics and reaction paths have been clarified. However, in order to have a wide range of applications, it still needs to be further studied, and it is hoped that this achievement can be turned into a practical good and promote the development of various fields in the future.

Physical & Chemical Properties

Regarding the physicochemical properties of (2-butyl-3-benzofuranyl) (4- (2 - (diethylamino) ethoxy) -3,5 -diiodophenyl) methanone
I recently focused on the compound (2-butyl-3-benzofuranyl) (4- (2 - (diethylamino) ethoxy) -3,5 -diiodophenyl) methanone. Its physical properties are considered to be [specific appearance, need to be determined by actual testing], and its shape is like [describe appearance morphology]. In common solvents, the solubility varies. In [Solvent Name 1], it is slightly soluble, and its solution clarity [describes the appearance of the solution]; in [Solvent Name 2], the dissolution state is relatively good, showing [related solution state].
Discussing the chemical properties, it is affected by the structure of intramolecular benzofuran and diiodophenyl, and has a certain electrophilicity. Under specific conditions, nucleophilic substitution reactions can occur with [for example, names of nucleophiles], and the reaction check point is mostly located at [specify the specific reaction location] to generate new derivatives. This reaction rate is restricted by factors such as temperature and solvent. When the temperature increases, the reaction rate increases; suitable solvents also promote the reaction process.

Technical Specifications & Labeling

Today there is a product called "Methanone, (2-Butyl-3-Benzofuranyl) (4- (2- (Diethylamino) Ethoxy) -3,5-Diiodophenyl) -". The technical specifications and identification (product parameters) of this product should be investigated in detail.
Look at this material, its structure is complex, containing benzofuran, diiodophenyl and other groups, and connected with specific alkoxy and diethylamino groups. To clarify its technical specifications, it is necessary to study the synthesis method, control the temperature, duration and proportion of the material of the reaction. The reaction conditions should be precise, such as a certain step of the reaction, or it needs to be stirred in a specific temperature and a specific solvent for several hours, in order to obtain a high-purity product.
As for the label and product parameters, its physical properties, such as color, taste, melting point; chemical properties, such as stability, reactivity; and impurity limits, content standards, etc. should be mentioned. In this way, it can be correct in the use of this product and meet the required specifications.

Preparation Method

There are methods for preparing Methanone, (2-Butyl-3-Benzofuranyl) (4- (2- (Diethylamino) Ethoxy) -3,5-Diiodophenyl) -, which are described in detail below. In terms of raw materials, it is necessary to select pure materials related to 2-butyl-3-benzofuranyl, and raw materials containing diethylaminoethoxy and diiodophenyl to ensure quality. In the production process, the raw materials are mixed in a special vessel first, and the temperature is controlled moderately to stabilize the reaction. The reaction step is to slowly stir and melt at the beginning, gradually heat up and introduce it, observe its color change, and wait until it is orange and uniform in quality. The next step is. Catalytic mechanism, adding high-efficiency exclusive catalysts, stimulating molecular activity, and quickly reacting into this excellent product, resulting in exquisite craftsmanship and excellent product purity.

Chemical Reactions & Modifications

Today, there is a substance called "Methanone, (2-Butyl-3-Benzofuranyl) (4- (2- (Diethylamino) Ethoxy) -3,5-Diiodophenyl) -". In the field of chemical research, its chemical feedback and modification are the key.
To investigate this substance, its chemical structure is unique, and each group interacts with each other, causing it to exhibit specific properties in many chemical reactions. To investigate its chemical feedback, it is necessary to study the conditions, rates and products of its participation in the reaction in detail. Or under specific catalysts, temperatures and pressures, observe the changes in its structure and identify newly formed chemical bonds.
As for modification, the method of introducing functional groups or changing the structure can be used to optimize its performance. Or enhance its stability, or enhance the reactivity, through these various means, the substance can have more outstanding applications in different fields, such as medicine, materials, etc. In the path of chemistry, unremitting exploration of the chemical feedback and modification of this substance will surely demonstrate its value.

Synonyms & Product Names

"List of Objects of the Same Name"
Recently, a new product has been developed, and its name is Methanone, (2-Butyl-3-Benzofuranyl) (4- (2- (Diethylamino) Ethoxy) -3,5-Diiodophenyl) -. This is an organic compound with exquisite structure and fusion of functional groups.
There are often things in the world with the same name. According to Guan Xixian, things are named after their morphology, origin, and use. The same thing has different names. Today, Methanone, (2-Butyl-3-Benzofuranyl) (4- (2- (Diethylamino) Ethoxy) -3,5-Diiodophenyl) -, or has another name, which is caused by the city, and the name is different from this quality is unknown.
The way of studying things, the name must be distinguished. Colleagues should understand this meaning to avoid ambiguity, so as to facilitate the progress of learning and research, and the communication is seamless.

Safety & Operational Standards

"On the Safety and Operation Specification of (2-butyl-3-benzofuran) (4- (2 - (diethylamino) ethoxy) -3,5 - diiodophenyl) -methanone"
Fu (2-butyl-3-benzofuran) (4 - (2 - (diethylamino) ethoxy) -3,5 - diiodophenyl) -methanone is a chemical research thing. When using, safety comes first.
The place where this substance is prepared and used must be well ventilated to avoid fire and hot topics. Because it can cause fire, do not approach open flames or heat sources. During operation, researchers wear protective equipment, goggles, gloves, and protective clothing in front of protective equipment. Goggles can protect the eyes from splashing hazards, and gloves and protective clothing can prevent them from contacting the skin and clothing.
To take this medicine, precise operation is essential. Quantitative according to experimental needs, do not increase or decrease at will. If there is a splash, deal with it quickly. Spill a small amount, absorb it with inert materials such as sand and vermiculite, and collect it in a suitable container; if you spill a large amount, you need to block it with an embankment and invite professionals to deal with it.
When storing, store in a cool, dry and ventilated warehouse. Store remote fire species, heat sources, oxidants, acids, etc., and prohibit mixed storage. Check the warehouse from time to time to prevent leakage.
If this substance is involved in waste, it shall be implemented in accordance with regulations and cannot be discarded privately. Or hand it over to a professional recycling office, or dispose of it according to a specific process to ensure environmental safety and avoid ecological damage.
The road of scientific research is based on rigor. Scholars must keep in mind the safety and operation specifications of this drug in order to ensure smooth scientific research, keep themselves safe and the environment is peaceful.

Application Area

"Brief description of the application field of a chemical product"
There is a thing called "Methanone, (2-Butyl-3 - Benzofuranyl) (4- (2- (Diethylamino) Ethoxy) -3,5 - Diiodophenyl) -". The use of this chemical product is quite relevant. In the field of medicine, it may be able to develop new ideas for the development of pharmaceuticals, and with its unique structure, it is expected to make special treatment prescriptions. In industry, material properties may be improved for the creation of high-precision components and corrosion-resistant equipment to increase the solidity and durability of products. In addition, at the forefront of scientific research, it may be a key ingredient in the exploration of chemical reaction catalysts and new materials, leading to the advancement of scientific research and the rise of technology. In today's various industries, the potential is revealed, and over time, it may become a driving force for change and development, opening up unprecedented new frontiers.

Research & Development

A new type of compound is being studied today, named "Methanone, (2 - Butyl - 3 - Benzofuranyl) (4 - (2 - (Diethylamino) Ethoxy) -3,5 - Diiodophenyl) -". In my chemical research, the exploration of this substance is the key.
We carefully observe its structural properties and strictly analyze its chemical properties. After many experiments, explore the reaction mechanism, hoping to clarify its changes under different conditions. This compound may have unique reactivity, or it can make achievements in various fields.
Study its preparation method, optimize the process, and strive to improve the yield. Considering cost and efficiency, we hope to find an efficient synthesis path. At the same time, to investigate its stability, study the impact of environmental factors. We firmly believe that through in-depth research and unremitting exploration, we will be able to explore the potential of this compound, promote its transformation and application, and obtain a double harvest of scientific research progress and technological innovation.

Toxicity Research

Today there is a thing called "Methanone, (2 - Butyl - 3 - Benzofuranyl) (4 - (2 - (Diethylamino) Ethoxy) -3,5 - Diiophodenyl) -". As a toxicity researcher, I observe its toxicity. Looking at the composition of this substance, it contains complex groups, or has potential toxicity. To investigate its toxicity, we should simulate various environments and interact with biological tissues. First, use the method of cell culture to apply this substance to cell communities to observe changes in cells, such as differences in morphology, the urgency of proliferation, and apoptosis. Then use small animals as a test to observe changes in their physiology and behavior after ingestion or exposure to this substance. It is necessary to carefully observe it and record its situation in detail, so as to clarify the size and characteristics of the toxicity of this substance. When using this substance for the world, it is necessary to anticipate its risks, prevent its harm, protect the well-being of people and animals, and protect the tranquility of the environment.

Future Prospects

In the future, there will be a name called " (2-butyl-3-benzofuranyl) (4- (2- (diethylamino) ethoxy) -3,5-diiodophenyl) methyl ketone", which has an extraordinary prospect in the study of chemistry in our generation. This substance has an exquisite structure and a unique conformation, which seems to contain endless mysteries. I hope that in the future, we can investigate its reaction characteristics in detail and reveal hidden laws. It may emerge in the field of the creation of new materials and drug research and development. With time, in-depth analysis of its properties may lead to innovative methods that can be applied to various industries and benefit the world. Although the road ahead is difficult, I am determined to explore this " (2-butyl-3-benzofurano) (4- (2- (diethylamino) ethoxy) -3,5-diiodophenyl) ketone" in the future.

Historical Development

The past rheological changes of a chemical substance
There was a foreign body in the past, and its name was complicated, called "Methanone, (2 - Butyl - 3 - Benzofuranyl) (4 - (2 - (Diethylamino) Ethoxy) -3,5 - Diiodophenyl) -". At the beginning of this substance, it emerged in the faintly realm.
At that time, the Fang family first noticed its clues, but it was still difficult to understand its subtlety. After years, the researchers worked hard and began to understand its nature. At first, only a little bit of its shape and quality were known, but its deep profound meaning was not seen.
As time goes by, various explorations become more and more complicated, and the cognition of its structure and characteristics is like stripping away cocoons and deepening layer by layer. The past was ignorant, but now it is becoming clearer. The rheological process of this substance is like a path gradually appearing, adding a splendor to the field of chemistry, leaving deep imprints on the road of exploration, waiting for future generations to follow suit and improve.

Product Overview

There is now a substance called (2-butyl-3-benzofuranyl) (4- (2- (diethylamino) ethoxy) -3,5-diiodophenyl) -methanone. This substance has a unique structure and is composed of a specific group combination. 2-butyl is connected to 3-benzofuranyl, and 4- (2- (diethylamino) ethoxy) -3,5-diiodophenyl is also combined with a methyl ketone group. Its chemical properties may vary due to the interaction of these groups. In the research, the characteristics and reactivity of this compound need to be further investigated to clarify its potential use and value in the field of chemistry, pave the way for subsequent chemical research and application, and may be able to emerge in many fields such as materials and medicine, and play an important role.

Physical & Chemical Properties

There is now a substance called (2-butyl-3-benzofuranyl) (4 - (2 - (diethylamino) ethoxy) -3,5 -diiodophenyl) methyl ketone, which is the object of chemical research. The physical and chemical properties of this substance are worth exploring. Its physical properties are related to morphology, color, melting point, etc. Looking at its morphology, or solid state, color or white or yellowish, this is related to molecular arrangement and light reflection. The melting and boiling point is determined by the intermolecular forces. The benzofuran group, diiodophenyl group and other parts of the molecular structure affect the attractive force between molecules. The melting boiling point has its specific value. Its chemical properties are related to its reactivity. Because it contains functional groups such as diethylaminoethoxy and iodine atoms, it can participate in substitution, addition and other reactions. Iodine atoms have certain activity and can be replaced by other groups under appropriate conditions, while diethylaminoethoxy parts may affect the reaction check point and rate. The study of the physical and chemical properties of this substance is of great significance in the fields of chemical industry, pharmaceutical research and development.

Technical Specifications & Labeling

To observe this Methanone, (2 - butyl - 3 - benzofuranyl) (4 - (2 - (diethylamino) ethoxy) - 3,5 - diiodophenyl) -, its preparation and labeling (commodity parameters) are the importance of the researcher. To obtain a fine product, the regulations must be clear. The first inspection of the materials used, the quantity and quality, are all accurate. The reaction environment, temperature and pressure are also critical. The temperature and pressure are high and low, and the strength of pressure are all related to the change of things. As for the label, record the parameters of the product in detail, so that its nature and use can be known, and it is different from other things. In this way, the product can be achieved. It is the priority of the industry to clarify its technical rules and logos, and it is necessary to observe the good and bad of the product.

Preparation Method

There are currently products for preparing Methanone, (2-Butyl-3-Benzofuranyl) (4- (2- (Diethylamino) Ethoxy) -3,5-Diiodophenyl) -, and the method of preparing them should be studied in detail.
Preliminary raw materials, 2-butyl-3-benzofuran-related, 4- (2- (diethylamino) ethoxy) -3,5-diiodophenyl, etc., must be pure and suitable. The preparation process first allows the relevant groups to react in sequence.
First, introduce 2-butyl-3-benzofuran into the reaction system, and control the reaction rate according to a specific temperature and time. Then, 4 - (2 - (diethylamino) ethoxy) -3,5 - diiodophenyl is connected to adjust the acid and base to make the reaction stable.
During this period, each reaction step must be carefully observed for reaction signs. If the color changes and the temperature changes, it should be adjusted according to time. As for the catalytic mechanism, with a suitable catalyst, the energy barrier of the reaction is lowered, and the reaction is accelerated, so that the product has good yield and purity. Only in this way can we improve the method of making this product.

Chemical Reactions & Modifications

Yu Taste is dedicated to the research of chemical products, and recently focused on the substance named "Methanone, (2-Butyl-3-Benzofuranyl) (4- (2- (Diethylamino) Ethoxy) -3,5-Diiodophenyl) -". The exploration of its chemical reaction and modification is quite insightful.
The reaction of this chemical is quite difficult to control at first, and the reaction conditions are slightly poor, but the results are very different. After repeated tests, the appropriate temperature, pressure and catalyst ratio were finally obtained. As for the modification, it is designed to improve its stability and activity. Try to introduce different groups to observe the changes in its physical properties. After many efforts, it has been slightly effective, the stability has indeed improved, and the activity has reached the expected state.
The beauty of chemistry lies in continuous exploration and experimentation. Although the process is difficult, every breakthrough is gratifying, and there is a deeper understanding of chemical reactions and modifications.

Synonyms & Product Names

Today there is a thing called (2-butyl-3-benzofuranyl) (4 - (2 - (diethylamino) ethoxy) -3,5 -diiodophenyl) methyl ketone, which is the object of chemical research. The synonyms and trade names of this substance are really the key to research. In the process of chemical exploration, clarifying its synonyms can help us accurately grasp its characteristics and functions; knowing the trade name can give insight into its application and circulation in the world.
As chemical researchers, we should study the synonyms of this thing in detail, and explore its title changes in different classics and studies, in order to maximize its essence. The trade name cannot be ignored either, it reflects the positioning and use of this product in the market.
Only by in-depth study of the synonyms and trade names of (2-butyl-3-benzofuran) (4- (2- (diethylamino) ethoxy) -3,5-diiodophenyl) methyl ketone can we explore new frontiers and make achievements in the field of chemistry.

Safety & Operational Standards

Regarding the safety and operation of (2-butyl-3-benzofuryl) (4- (2- (diethylamino) ethoxy) -3,5-diiodophenyl) ketone
There are currently chemical substances (2-butyl-3-benzofuryl) (4- (2- (diethylamino) ethoxy) -3,5-diiodophenyl) methyl ketone, related to its safety and operation practices, should be discussed in detail.
In terms of storage, be sure to choose a cool, dry and well-ventilated place. This substance may be sensitive to temperature and humidity. Excessive temperature or humidity can cause its chemical properties to mutate, so the temperature should be controlled within a specific range, and the humidity should also be maintained stable. And it should be kept away from fire and heat sources. Because it may be flammable, it may cause danger in case of open flames and hot topics.
When operating, the experimenter must wear appropriate protective equipment. Protective clothing can prevent direct contact with the body and avoid skin contamination; goggles can protect the eyes from splashing into the eyes and causing damage; masks need to be selected to prevent inhalation, because inhalation of dust or vapor of the substance is harmful to health.
When using, the method should be precise and meticulous. According to the required dosage of the experiment, measure with appropriate equipment. Do not touch with bare hands to prevent skin absorption. If it is accidentally contaminated, it should be immediately rinsed with a large amount of water, followed by appropriate antidote treatment, and seek medical attention if necessary.
After use, the disposal of remaining substances should not be underestimated. It should not be discarded at will. It must be properly recycled or disposed of harmlessly in accordance with relevant regulations to avoid polluting the environment.
The operating environment should also be strictly controlled. Ventilation equipment should operate normally to ensure air circulation in the laboratory, discharge volatile substances in time, and reduce the concentration in the air to ensure the safety of operators. In this way, it is necessary to ensure the safety of (2-butyl-3-benzofuryl) (4- (2- (diethylamino) ethoxy) -3,5-diiodophenyl) methyl ketone during storage and use to avoid accidents.

Application Area

Today there is a thing called (2 - butyl - 3 - benzofuranyl) (4 - (2 - (diethylamino) ethoxy) - 3,5 - diiodophenyl) -methyl ketone, which is unique in nature and has a wide range of uses. In many application fields, it shows unique effects.
View this substance, or can be used in medical medicine. Because of its special structure, or can participate in the production of pharmaceuticals, help heal various diseases, relieve pain and relieve diseases for patients. Or in the field of chemical industry, as a raw material for reactions, through various processes, other substances can be prepared to meet the needs of industry.
Furthermore, on the occasion of scientific research and exploration, it may be a key thing to help researchers explore the material nature, open up new horizons, explore unknown mysteries, promote academic progress, and display its extraordinary ability in the application field.

Research & Development

Research and Development of (2-butyl-3-benzofuranyl) (4 - (2 - (diethylamino) ethoxy) - 3,5 - diiodophenyl) methyl ketone
As a chemical researcher, we are currently focusing on the research of (2-butyl-3-benzofuranyl) (4 - (2 - (diethylamino) ethoxy) -3,5 - diiodophenyl) methyl ketone. This compound has a unique structure and contains benzofuran, diiodophenyl and other groups, or has various chemical activities.
During the research process, we analyzed its synthesis path in detail, striving to optimize the reaction conditions and improve the yield and purity. After repeated experiments, we improved the ratio of reactants, temperature and catalyst, and the results were initial. At the same time, explore its physical and chemical properties, paving the way for subsequent applications.
Looking forward to the development, this compound is expected to emerge in the fields of medicine, materials and so on. Or into a new type of drug lead compound, with its special structure and activity, to develop good drugs for specific diseases; in the field of materials, or endow materials with unique optical and electrical properties. We will make unremitting research to promote this compound from the laboratory to practical application, and contribute to the development of the chemical field.

Toxicity Research

Study on Toxicity of (2-butyl-3-benzofuranyl) (4- (2- (diethylamino) ethoxy) -3,5-diiodophenyl) -methanone
In our study on toxicity, we focused on (2-butyl-3-benzofuranyl) (4- (2- (diethylamino) ethoxy) -3,5-diiodophenyl) -methanone. This substance has a unique structure and contains benzofuran, diiodophenyl and other groups, or has special toxic effects.
Initial observation of its chemical properties, the interaction of various groups, or the influence of its biological activity. Based on animal experiments, observe its impact on the body. Dose an appropriate amount of this product to the test animals, and observe the changes in their behavior and physiological indicators in detail. See that the test animals may be slow to move, abnormal eating, and pathological changes in the organs.
Biochemical analysis shows that it may interfere with the metabolic pathways in the body and affect the activities of key enzymes. All these show that (2-butyl-3-benzofuran) (4 - (2 - (diethylamino) ethoxy) -3,5 -diiodophenyl) -methanone has certain toxicity, and its toxicological mechanism should be investigated in depth in order to prevent and apply it.

Future Prospects

In today's world, science and technology are changing day by day, and in the field of chemistry, there are also new systems. Today there is a thing called "Methanone, (2-Butyl-3-Benzofuranyl) (4- (2- (Diethylamino) Ethoxy) -3,5-Diiodophenyl) -".
My generation is a chemical researcher, and I often think that this thing can be used in the future. Or it can open up new paths in the road of medicine. Its unique structure may be able to overcome difficult diseases. Or in material science, it has emerged, adding a boost to the system of new materials.
Although the potential of this product has not yet been fully realized, we hold the heart of research and firmly believe that with time, we will be able to explore its infinite possibilities, seek well-being for future generations, and open up new vistas for the future, so that this new chemical product can be used to its fullest potential to shine in the future.

Historical Development

The history of a chemical substance
The past, the sages have not heard of (2-butyl-3-benzofuranyl) (4 - (2 - (diethylamino) ethoxy) -3,5 -diiodophenyl) -methanone. Chemistry is booming, and sages have studied the properties, structures and systems of substances.
At the beginning, researchers did not notice it in the vast matter. Later, organic chemistry gradually, the more refined the precipitation method, the more dense the experiment. In the process of complex synthesis, the public has gone through mistakes and failed again and again. Or the raw materials are difficult to find, or the reaction is perverse, but the determined ones are unremitting.
Finally, the craftsman of organic synthesis, with his clever hands, obtained this (2-butyl-3-benzofuran) (4- (2 - (diethylamino) ethoxy) -3,5 -diiodophenyl) -ketone. Since its existence, various fields of scientific research have gradually explored, either pharmacology or materials, opening a new chapter, adding a color page to the history of chemistry.

Product Overview

There is now a substance called (2-butyl-3-benzofuranyl) (4 - (2 - (diethylamino) ethoxy) -3,5 -diiodophenyl) methyl ketone, which is the object of chemical research. This substance has a unique structure and is cleverly connected by benzofuran, ethoxy and iodophenyl.
Looking at its properties, it has specific physical and chemical properties, or under specific reaction conditions, it shows unique reactivity. It has potential applications in the field of chemical research, or as the cornerstone of the development of new pharmaceuticals, or in materials science.
Although its name is long and complex, for my chemical researchers, each part contains mysteries that need to be explored in detail in order to clarify its nature and function, and then explore its practical value in various fields, contributing to the progress of science.

Physical & Chemical Properties

There is now a substance called (2-butyl-3-benzofuranyl) (4- (2 - (diethylamino) ethoxy) -3,5 -diiodophenyl) methyl ketone. The physical and chemical properties of this compound are worth studying. Its physical properties are related to appearance, melting point, solubility, etc. Looking at its appearance, or it has a unique state; the number of melting boiling points can indicate the temperature of its physical state transformation; how soluble it is, it has different manifestations in water and various organic solvents.
In terms of its chemical properties, the properties of functional groups are important. Benzofuranyl, diethylaminoethoxy and diiodophenyl groups have their own properties. Benzofuran group is aromatic, or involves electrophilic substitution and other reactions; the amino group in diethylaminoethoxy group is basic, or forms a salt with acid; the iodine atom of diiodophenyl group can participate in chemical changes such as substitution. The investigation of the physical and chemical properties of this compound is important in the fields of chemical industry, medicine and so on.

Technical Specifications & Labeling

Today there is a thing called "Methanone, (2-Butyl-3-Benzofuranyl) (4- (2- (Diethylamino) Ethoxy) -3,5-Diiodophenyl) -", which is related to the technical specifications and identification of this substance (commodity parameters), which is the focus of my research. The method of synthesis requires precise control of the amount of each substance, in a specific order, in a temperature and pressure environment. The raw materials used must be of high quality in order to ensure the purity of the product. On the label, the ingredients, characteristics, usage, and attention should be detailed. In this way, this thing can be used in front of the user to show its full ability, without error, for all required functions, and also in line with the technical specifications and labeling specifications.

Preparation Method

Methanone, (2-Butyl-3-Benzofuranyl) (4- (2- (Diethylamino) Ethoxy) -3,5-Diiodophenyl) - should be made by the ancient method. Prepare various materials first, find their original materials, such as 2-butyl-3-benzofuran, 4- (2- (diethylamino) ethoxy) -3,5-diiodophenyl, etc. The process is as follows: In sequence, the various primary phases are combined, and the reaction steps are controlled. First, a certain primary substance encounters a certain primary substance, adjusts its temperature and pressure, and waits for it to respond to obtain an intermediate product. Next, this product is homogenized with others, and its corresponding state is controlled again. As for the catalytic mechanism, choose the right catalyst to help it respond quickly and increase its yield. In this way, Methanone, (2-Butyl-3-Benzofuranyl) (4- (2- (Diethylamino) Ethoxy) -3,5-Diiodophenyl) -product can be achieved.

Chemical Reactions & Modifications

In modern chemistry, we have dedicated ourselves to the study of (2-butyl-3-benzofuranyl) (4 - (2 - (diethylamino) ethoxy) -3,5 -diiodophenyl) -methanone. The chemical reaction and modification of this compound are very difficult to consider.
To observe its structure, the interaction of each group may lead to unique reactions. To seek modification, it is necessary to study the bond energy and steric resistance between each atom. According to chemical reasons, or by substitution reaction, its side chain can be changed, and its physical properties can be changed. However, this process is fraught with obstacles, and the reaction conditions must be precisely controlled. The choice of temperature, pressure, and catalyst is all about success or failure.
We study day and night, hoping to find a good way to optimize the performance of this compound, which will contribute to the progress of chemistry and open up new avenues for future applications.

Synonyms & Product Names

Today there is a thing called (2-butyl-3-benzofuranyl) (4 - (2 - (diethylamino) ethoxy) -3,5 -diiodophenyl) -methanone, whose chemical name is so complicated. However, among the markets, this thing also has his name, or the name of the same family, or the name of the product.
This (2-butyl-3-benzofuranyl) (4 - (2 - (diethylamino) ethoxy) -3,5 -diiodophenyl) -methanone, the chemical nature, or related to the clever reaction, or related to the change of substances. According to our chemical researchers, the same name and commercial name are also important for exploring the use of this thing in different fields. Although the chemical nomenclature is rigorous and orderly, the appearance of different names of the same thing can also be seen in practice. Or because of the special way of use, or the difference in the transmission of the fate, the names of the same genus and the names of commodities are mixed. Therefore, it is beneficial to study its various appellations carefully in order to understand the use of this thing and to study its rationale.

Safety & Operational Standards

Safety and operation of a certain substance
The husband (a chemical substance) Methanone, (2 - Butyl - 3 - Benzofuranyl) (4 - (2 - (Diethylamino) Ethoxy) -3,5 - Diiodophenyl) -, in our chemical research, its safety and operation standards are of the utmost importance.
When hiding, choose a cool, dry and well-ventilated place. Avoid open fires and hot topics to prevent the danger of accidents. This substance is demanding on temperature and humidity. If the temperature is high, it may cause qualitative change, and if it is humid, it may cause deliquescence.
When handling, all kinds of protection must not be ignored. Wear appropriate protective clothing, wear proper protective gloves, and protect your eyes with professional protective glasses. Because the substance may be irritating to the skin and eyes, a little carelessness can cause disaster.
As for the use, it should be measured strictly according to a precise measuring device, and there should be no difference of a millimeter. The operation should be slow and careful to avoid improper contact with other objects and cause the reaction to be out of control. If it is accidentally spilled in the experimental room, take emergency measures as soon as possible. First ventilate the site to disperse harmful gas. Then collect it with appropriate materials, such as materials with good adsorption properties, and then dispose of it according to regulations. Do not discard it at will to avoid polluting the environment.
Also, after use, clean up the instruments and places of the experiment in detail, so as not to leave any residue. The storage device must be well sealed and marked with a clear name to prevent confusion.
All these are to ensure the smooth progress of our research, the safety of our personnel, and the cleanliness of the environment. We chemical researchers should keep it in mind and practice it in practice, and must not slack off in the slightest.

Application Area

There is now a thing called (2-butyl-3-benzofuranyl) (4- (2 - (diethylamino) ethoxy) -3,5 -diiodophenyl) -methanone. This thing has its uses in many fields.
In the genus of medicine, or through subtle methods, it can be used in pharmacology to explore its effect on diseases, or as a therapeutic aid. In the field of chemical industry, or because of its unique nature, it can be used as a raw material to prepare other substances to add chemical products.
We look at it from the perspective of chemical and pharmaceutical researchers, and we should carefully investigate its nature, explore its mechanism, and understand the wonders of each use. If we can make good use of it, or bring new phenomena to the industry, it will also be a blessing for everyone. Although the road ahead may be difficult, we will definitely gain something if we study unremittingly.

Research & Development

Research and Development on (2-butyl-3-benzofuryl) (4- (2- (diethylamino) ethoxy) -3,5-diiodophenyl) -methanone
In recent years, I have been focusing on (2-butyl-3-benzofuryl) (4- (2- (diethylamino) ethoxy) -3,5 -diiodophenyl) -methanone Substances, dedicated to study. This substance has a unique structure. Its combination of 2-butyl and benzofuran, as well as the substitution of 4- (2- (diethylamino) ethoxy) -3,5-diiodophenyl, endow it with different properties.
At first, it was very laborious to analyze its structure. After repeated investigation, it was clear how well the groups interact. Then, I tried various synthetic methods. At the beginning of the conventional path, the yield was not good. Then I found a new way, adjusted the reaction conditions, optimized the ratio of reagents, and finally achieved satisfactory results.
Looking at its development, there may be a wide world in the field of medicine in the future. If its activity can be precisely regulated, it is expected to become a key component of new drugs for human health and well-being. I will continue to study, hoping to make more breakthroughs and push this substance to new heights.

Toxicity Research

I am committed to the study of poisons. Recently, the person involved is (2-butyl-3-benzofuranyl) (4- (2- (diethylamino) ethoxy) -3,5-diiodophenyl) -methanone. In the field of chemical research, toxicity investigation is crucial.
Detailed investigation of this (2-butyl-3-benzofuranyl) (4- (2- (diethylamino) ethoxy) -3,5-diiodophenyl) -methanone, with unique structures and exquisite atomic compatibility. To clarify its toxicity, multiple methods are required. Based on animal experiments, observe the physiological changes after ingestion, such as behavior and organ function. Supplemented by cell experiments, in the microscopic environment, explore its damage to cells, and observe the signs of apoptosis and metabolic disorders.
The study of toxicity is not only to clarify its harm, but also to prevent problems before they occur. When this product is used in various industries, safety regulations can be determined according to the results of the research, to protect the health of the living, and to maintain the peace of the environment.

Future Prospects

Today there is a thing called "Methanone, (2-Butyl-3-Benzofuranyl) (4- (2- (Diethylamino) Ethoxy) -3,5-Diiodophenyl) -", which we have studied chemically. Looking at this substance, its structure is unique, and it contains various groups, which seems to have infinite possibilities.
Thinking about the future prospects, this thing may shine in the field of medicine. Or it can be cleverly modulated to be a cure for various diseases and to solve the suffering of people. Or it can emerge in the material industry, and with its characteristics, it can be made into extraordinary materials, which can be used in high-tech and promote the progress of the world. Although the road ahead is uncertain, we chemical researchers must have a passionate heart to explore its mysteries, hoping to lead it to the bright path, seek well-being for future generations, and make the future bright.

Where to Buy Methanone, (2-Butyl-3-Benzofuranyl)(4-(2-(Diethylamino)Ethoxy)-3,5-Diiodophenyl)- in China?

As a trusted Methanone, (2-Butyl-3-Benzofuranyl)(4-(2-(Diethylamino)Ethoxy)-3,5-Diiodophenyl)- manufacturer, we deliver: Factory-Direct Value: Competitive pricing with no middleman markups, tailored for bulk orders and project-scale requirements. Technical Excellence: Precision-engineered solutions backed by R&D expertise, from formulation to end-to-end delivery. Whether you need industrial-grade quantities or specialized customizations, our team ensures reliability at every stage—from initial specification to post-delivery support.

Frequently Asked Questions

As a leading Methanone, (2-Butyl-3-Benzofuranyl)(4-(2-(Diethylamino)Ethoxy)-3,5-Diiodophenyl)- supplier, we deliver high-quality products across diverse grades to meet evolving needs, empowering global customers with safe, efficient, and compliant chemical solutions.

What is the chemical structure of this product (Methanone, (2-butyl-3-benzofuranyl) (4- (2- (diethylamino) ethoxy) -3,5-diiodophenyl) -)?

The chemical structure of this substance ((2-butyl-3-benzofuranyl) (4- (2- (diethylamino) ethoxy) -3,5-diiodophenyl) methyl ketone) is like an exquisite microscopic blueprint. According to chemical principles, atoms are used as bricks and stones, and chemical bonds are tenon and mortise.
In terms of its name, " (2-butyl-3-benzofuranyl) ", this part is based on benzofuranyl, which is like a delicate ring-based pavilion, adding wings to the branches of the two additives, such as buildings. Butyl is a chain-like group containing four carbons, which gives it specific spatial extension and hydrophobic properties.
And in " (4- (2- (diethylamino) ethoxy) -3,5 -diiodophenyl) ", the phenyl group is like a square platform, which is embedded with iodine atoms at positions 3 and 5. The iodine atoms are large and have unique electronic effects, which affect the polarity and reactivity of the molecule. The 4-position is connected by a chain of (2- (diethylamino) ethoxy), which is like a rope hanging on the platform. The oxygen atom in the ethoxy group is like a connecting buckle, the ethylene diamine part, and the diethylamino group contains nitrogen atoms. It has a lone pair of electrons and can be used as an electron donor, which affects the electron cloud distribution and chemical behavior of the molecule.
These two are connected to the methyl ketone group, and the methyl ketone group is like a hub, which organically integrates the two parts. The carbon and oxygen double bond in the carbonyl group, the positive electricity of carbon, and the negative electricity of oxygen are the active check points of molecular chemical reactions, such as a battleground for military experts. As a whole, all parts of this chemical structure are interdependent and influence each other, and together build the unique chemical properties and spatial forms of the substance. It is like a microscopic chemical castle, showing the wonders of chemistry in an invisible place.

What is the main purpose of this product (Methanone, (2-butyl-3-benzofuranyl) (4- (2- (diethylamino) ethoxy) -3,5-diiodophenyl) -)?

This substance ((2-butyl-3-benzofuranyl) (4 - (2 - (diethylamino) ethoxy) -3,5 -diiodophenyl) methyl ketone) is difficult to find in the era of "Tiangong Kaiwu". Because "Tiangong Kaiwu" was written in Chongzhen in the Ming Dynasty for ten years, at that time chemical knowledge and organic synthesis were far from being able to prepare this complex organic substance.
However, in today's view, such organic compounds have many uses in the field of modern chemistry. One, or play an important role in pharmaceutical research and development. Due to its complex structure, it has the potential to interact with specific targets in organisms, or it can be designed and optimized to become a drug for the treatment of specific diseases. For example, for some difficult diseases with special physiological mechanisms, its unique chemical structure can precisely act on diseased cells to achieve therapeutic effects. Second, in the field of materials science, it can be used as a raw material for functional materials. Using its unique chemical and physical properties, such as optical and electrical properties, new organic photoelectric materials can be prepared for use in organic Light Emitting Diodes, solar cells and other devices to improve their performance and efficiency. Third, in organic synthesis chemistry, it is an important synthesis intermediate. Through various chemical reactions, its structure can be modified and derived, and more organic compounds with different functions and uses can be synthesized, expanding the library of organic compounds and providing more options for chemical research and industrial applications.

What are the physical properties of this product (Methanone, (2-butyl-3-benzofuranyl) (4- (2- (diethylamino) ethoxy) -3,5-diiodophenyl) -)?

The physical properties of this substance ((2-butyl-3-benzofuranyl) (4 - (2 - (diethylamino) ethoxy) -3,5 -diiodophenyl) methyl ketone) are as follows:
It is usually in solid form, due to the molecular structure containing multiple aromatic rings and iodine atoms, resulting in strong intermolecular forces, so it is in a solid state. In terms of melting point, due to the complex structure, its melting point may be relatively high, but the exact value needs to be accurately determined by experiments.
In terms of solubility, because the molecule contains polar ethoxy and diethylamino parts, it may have a certain solubility in polar organic solvents such as ethanol and acetone; but a large number of aromatic rings and iodine atoms cause its hydrophobicity, and the solubility in water may be very low.
The density may be higher than that of ordinary organic compounds, because the relative atomic weight of iodine atoms is large, which increases the overall molecular weight, which in turn affects the density.
Appearance may be white to light yellow powder or crystalline solid, which is based on the appearance of common organic compounds containing aromatic rings and iodine substituents. In addition, the substance may have certain stability, but due to iodine atoms, under specific conditions such as light and high temperature, or chemical reactions occur, resulting in structural changes.

How is this product (Methanone, (2-butyl-3-benzofuranyl) (4- (2- (diethylamino) ethoxy) -3,5-diiodophenyl) -) produced?

The production process of this substance ((2-butyl-3-benzofuran) (4- (2- (diethylamino) ethoxy) -3,5-diiodophenyl) methyl ketone) is just like the ingenious technology of ancient creation, which requires many exquisite processes.
First, when finding suitable starting materials, 2-butyl-3-benzofuran derivatives, 4- (2- (diethylamino) ethoxy) -3,5-diiodobenzene derivatives are all key. When the two meet, it is like the ancient sages would meet in Yaji. Under specific reaction conditions, in a suitable solvent, or with the help of a catalyst, it is like a good teacher leading the students to start the reaction journey.
When reacting, the temperature is controlled, just like the leakage of time, with accuracy. Or in a mild temperature, the molecules can blend with each other, and delicate chemical reactions can occur to build the basic structure of matter.
When the newly formed product is in the world, it still needs to go through the process of purification. It is like a craftsman carving beautiful jade, removing its flaws and taking its essence. Column chromatography, recrystallization and other methods can be used to make the product more pure and close to perfection.
And each step of the reaction needs to be carefully monitored, such as the ancient historians recording important things to ensure that the process of each step and the purity of the product are in line with expectations. In this way, after many careful handling, this (2-butyl-3-benzofuran) (4- (2- (diethylamino) ethoxy) -3,5-diiodophenyl) ketone can be achieved. The complex and delicate production process is a unique chapter in the field of chemistry.

What is the market outlook for this product (Methanone, (2-butyl-3-benzofuranyl) (4- (2- (diethylamino) ethoxy) -3,5-diiodophenyl) -)?

(This compound ((2-butyl-3-benzofuran) (4- (2 - (diethylamino) ethoxy) -3,5 -diiodophenyl) methyl ketone) is now in the market prospect of the world, just like a path to be explored. It seems to be in an obscure state in today's commercial sea.
Although it has not been widely spread, there may be hidden opportunities in it. In the field of medical research, there may be unique uses. If the road of drug creation, it may be able to open up different ideas for those who explore new agents. However, if it wants to enter the bustling city, it still needs to go through many barriers.
First, it is necessary to solve the problem of preparation. If you can get exquisite methods, control costs and increase production, you will have the basis to enter the market. Second, it is necessary to carefully check its safety and effectiveness, and pass all kinds of rigorous tests and obtain recognized certificates before it can be used in the market.
Looking at the world today, technology is new and demand is changing. If this compound can flow with the times, in response to the needs of the market, it will emerge in the relevant industry, or it will be able to open up a world and add a new color to the market; if it fails to change in response to the situation, it will be like a small thing in the forest, difficult to enter the eyes of everyone, and trapped in a place where no one cares.)