Ethyl N-Acetyl-3,5-Diiodotyrosinate

Fengxi Chemical

Specifications

HS Code	326490
Chemical Formula	C13H15I2NO4
Molar Mass	515.07 g/mol
Appearance	White to off - white powder
Solubility In Water	Poorly soluble
Solubility In Organic Solvents	Soluble in some organic solvents like ethanol
Melting Point	Approximately 140 - 145 °C
Odor	Odorless
Stability	Stable under normal conditions, but light - sensitive
Chemical Name	Ethyl N - Acetyl - 3,5 - Diiodotyrosinate
Molecular Formula	C13H15I2NO4
Molar Mass	494.07 g/mol
Appearance	Solid (usually white to off - white powder)
Solubility In Water	Poorly soluble
Solubility In Organic Solvents	Soluble in some organic solvents like ethanol
Melting Point	Typically in a certain temperature range (needs specific data)
Pka	Related to its acidic or basic functional groups (needs specific data)
Stability	Stable under normal conditions, but may degrade on exposure to light, heat or moisture
Chemical Name	Ethyl N-Acetyl-3,5-Diiodotyrosinate
Molecular Formula	C13H15I2NO4
Molecular Weight	496.07
Appearance	Typically white to off - white solid
Solubility	Soluble in organic solvents like ethanol, less soluble in water
Melting Point	Around 140 - 145 °C
Boiling Point	Decomposes before boiling
Pka	The carboxyl group has a pKa around 4 - 5
Density	Approx. 2.0 g/cm³
Stability	Stable under normal conditions, but sensitive to light and air

As an accredited Ethyl N-Acetyl-3,5-Diiodotyrosinate factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

Packing & Storage

Packing	100g of Ethyl N - acetyl - 3,5 - diiodotyrosinate in a sealed, chemical - resistant container.
Storage	Ethyl N - acetyl - 3,5 - diiodotyrosinate should be stored in a cool, dry place away from direct sunlight. Keep it in a tightly sealed container to prevent moisture absorption and contact with air, which could potentially degrade the chemical. Store it separately from incompatible substances. Ideal storage temperature is around 2 - 8°C if possible, to maintain its stability and integrity over time.
Shipping	Ethyl N - acetyl - 3,5 - diiodotyrosinate is shipped with strict adherence to chemical transport regulations. Packed in appropriate, leak - proof containers, it's transported under controlled conditions to ensure its stability during transit.

Free Quote

Competitive Ethyl N-Acetyl-3,5-Diiodotyrosinate 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

General Information

Historical Development

Ethyl N - Acetyl - 3,5 - Diiodotyrosinate is also a chemical substance. Looking at its historical development and past years, the sages of chemistry have devoted themselves to exploring the mysteries of matter.
At the beginning, in the vast field of chemistry, this compound was still hidden in the abyss of the unknown. Later, scholars gradually touched on this substance with keen insight and perseverance. Or in the laboratory between bottles and jars, after countless attempts to prepare the drug and observe its reaction.
With the passage of time, research has deepened. From the initial understanding of its properties to the clarification of its structure, and then to the exploration of its synthesis method. Scholars find inspiration in ancient books, find ideas in new theories, and keep breaking through. Every step of progress has gathered countless efforts, and finally made Ethyl N-Acetyl-3,5-Diiodotyrosinate from vague unknown to clear in front of the world. On the stage of chemistry, it has emerged and opened a new chapter.

Product Overview

Ethyl N - Acetyl - 3,5 - Diiodotyrosinate is a unique chemical synthesis. Its structure is exquisite, with a combination of acetyl, ethoxy and diiodotyrosine.
The synthesis of this compound requires several careful steps. First, tyrosine is taken as the base material and acetylated to add acetyl on the nitrogen atom. Next, iodine atoms are introduced at specific positions to achieve the state of 3,5 - diiodine. Finally, it interacts with ethanol to form the ethyl ester form of Ethyl N - Acetyl - 3,5 - Diiodotyrosinate.
It may have potential use in the field of chemical research. Or it can be used as an intermediary for drug synthesis to help create drugs with special curative effects. It may also be used as a marker or standard in the field of biochemical analysis to provide accurate detection and analysis.

Physical & Chemical Properties

Ethyl N - Acetyl - 3,5 - Diiodotyrosinate is a unique chemical substance. Its physical properties, looking at its shape, are crystalline at room temperature, white and pure in color, and delicate in quality. Smell it, there is little odor, only a slight fragrance. Its melting point is in a specific range, about [specific melting point value]. At this temperature, the substance gradually melts from solid to liquid, and the phase transition process is smooth.
In terms of its chemical properties, its molecular structure contains specific functional groups and has certain reactivity. In alkaline environments, it can neutralize with bases, and its acetyl groups, iodine atoms and other parts may participate in it, or cause structural changes to form new compounds. In certain organic solvents, solubility is also characterized by the ability to partially dissolve in [enumerate partial solvents], which is crucial for separation, purification, and choice of reaction medium.

Technical Specifications & Labeling

Ethyl N - Acetyl - 3,5 - Diiodotyrosinate is a delicate chemical substance. Its process specifications and identification (product parameters) are crucial. As far as process specifications are concerned, the synthesis method needs to be precisely controlled, and the purity of the raw materials, the temperature and duration of the reaction are strictly required. If the raw materials must be of extremely high purity, the reaction temperature or when maintained in a certain precise range, the duration must not be wrong, so that high-quality products can be obtained.
As for the identification, the chemical name, molecular formula, molecular weight and other key product parameters should be clearly indicated. The appearance and characteristics should also be clearly marked so that the user can understand. And should be attached to the safety warning label, prompt the use of potential risks, so that only the product process specifications and identification of the essentials to ensure that its production, use are orderly compliance.

Preparation Method

The method of preparing Ethyl N - Acetyl - 3,5 - Diiodotyrosinate, the raw materials and production process are the key. First, take an appropriate amount of tyrosine as the base, and use the method of acetylation to make it cleverly react with the acetylation reagent. This is the initial step. The process requires precise temperature control to achieve the best effect of acetylation.
Then, introduce an iodine source, and in a specific reaction environment, make the 3 or 5 positions of tyrosine accurately iodized. This step is related to the purity of the product, and the proportion of reactants and the reaction time need to be carefully adjusted.
The reaction process is controlled by monitoring means, and the conditions are adjusted in a timely manner. After the reaction is completed, the impurities are removed through separation and purification, and the refined product is obtained. The separation process, either by chromatography or extraction, depends on the characteristics of the product. In this way, through delicate multi-step operation, Ethyl N-Acetyl-3,5-Diiodotyrosinate can be obtained.

Chemical Reactions & Modifications

Ethyl N - Acetyl - 3,5 - Diiodotyrosinate is an important compound in organic chemistry. Its chemical reaction and modification are extremely critical. In previous studies, this compound was often prepared by traditional methods, but the yield of this method was not high and there were many side reactions.
At present, after repeated exploration and experiments, we have found a new reaction path. Using a special catalyst can effectively improve the reaction rate and selectivity. This catalyst can precisely act on specific groups, making the reaction more directional and reducing the generation of by-products.
Furthermore, for the structure of this compound, we tried to introduce specific functional groups to modify it. In this way, the physical and chemical properties of Ethyl N-Acetyl-3,5-Diiodotyrosinate have been improved, the stability has been enhanced, and it may have broader application prospects in the fields of medicine and materials. The exploration of these chemical reactions and modifications has laid a solid foundation for the subsequent research and application of this compound.

Synonyms & Product Names

Ethyl N - Acetyl - 3,5 - Diiodotyrosinate is also a chemical product. Its same product name is used for the purpose of chemical research.
The same product name, or the same name, refers to the name of the product. Ethyl N - Acetyl - 3,5 - Diiodotyrosinate may also have the same name, but this depends on the common nature of the chemical world and previous research.
The name of the product is the name given by the merchant to the product, and it is used for other products in the market. Ethyl N - Acetyl - 3,5 - Diiodotyrosinate sold by different merchants may have different product names due to the formula and degree of extraction.
In the process of research, identify the same product name as the product name to avoid confusion and facilitate the promotion of research, so that the user can accurately identify the required product and promote communication and development.

Safety & Operational Standards

Ethyl N - Acetyl - 3,5 - Diiodotyrosinate is an important chemical product, and there are many strict regulations to be followed for its experimental operation and safety.
In the experimental site, it is necessary to keep the environment clean and orderly, and all kinds of instruments and equipment should be arranged in a regular manner for easy access and operation. Experimenters must wear appropriate laboratory clothes, protective gloves, goggles and other equipment, which is the first measure to ensure their own safety.
The operation of Ethyl N - Acetyl - 3,5 - Diiodotyrosinate should be carried out in a well-ventilated fume hood. Due to its special chemical properties, some operations may produce harmful gases, and the fume hood can expel harmful gases in time to prevent their accumulation in the laboratory and endanger human health.
When taking Ethyl N - Acetyl - 3,5 - Diiodotyrosinate, the dosage should be precisely controlled. Use a calibrated measuring tool to avoid dosage errors affecting the experimental results and prevent drug waste. Extra care should be taken during the weighing process to prevent drug spills. If it is accidentally spilled, it should be cleaned immediately according to specific procedures to prevent it from reacting with other substances or causing environmental pollution.
In terms of storage of Ethyl N - Acetyl - 3,5 - Diiodotyrossinate, it should be stored in an environment under specific conditions according to its chemical properties. Usually it should be placed in a dry, cool place, away from sources of ignition and oxidants to prevent the risk of fire or explosion. Storage containers should also be well sealed to prevent the medicine from getting damp or reacting with ingredients in the air and deteriorating.
After the experiment, the remaining Ethyl N-Acetyl-3,5-Diiodotyrosinate should not be discarded at will. It should be properly disposed of in accordance with the prescribed waste treatment process to avoid harm to the environment.
In short, in all operations involving Ethyl N-Acetyl-3,5-Diiodotyrosinate, strict follow of safety and operating practices can ensure the smooth progress of the experiment, and ensure the safety of personnel and the environment.

Application Area

Ethyl N - Acetyl - 3,5 - Diiodotyrosinate, the application field of this substance, is related to medical pharmacology. Looking at ancient medical books, treating patients and saving people, drugs are essential. Today Ethyl N - Acetyl - 3,5 - Diiodotyrosinate has emerged in medical research.
In the field of pharmacological effects, it may participate in biochemical reactions in the body and regulate the balance of the body. It may act on specific targets and affect the metabolism and function of cells. In the healing of diseases, it may be expected to play a regulatory role in some endocrine disorders, such as thyroid-related diseases.
Or in the process of drug research and development, it can be a key raw material, and through exquisite synthesis and compatibility, it can be made into a better medicine. With its unique chemical structure, it may open up a new treatment path, bring hope for recovery to patients, and contribute extraordinary power to the path of medicine.

Research & Development

Ethyl N - Acetyl - 3,5 - Diiodotyrosinate is also a chemical product. As a chemical researcher, I investigate this substance, its properties and uses are all important to my research.
At the beginning, explore its structure, delicate and unique, the arrangement of atoms, the connection of chemical bonds, all contain mysteries. Analyzing its physicochemical properties, degree of melting and boiling, and ability to dissolve are all unique in different solvents.
Then study its synthesis method, the selection of raw materials, and the control of conditions, all need to be precise. Temperature, pressure, and catalyst are mixed, and the yield and purity are all affected by it.
As for application, it may involve medicine, or be used in chemical industry. With its properties, it can either make special drugs or be a key reagent for the reaction.
Our chemical researchers should unremitting research, be reasonable, be good at their methods, and expand their use. In the hope of advancing chemistry and the prosperity of society, they will contribute their own efforts to make Ethyl N - Acetyl - 3,5 - Diiodotyrosinate shine in various fields. This is our wish.

Toxicity Research

Since modern times, chemical refinement, all kinds of compounds have changed with each passing day. Today there is a thing called Ethyl N - Acetyl - 3,5 - Diiodotyrosinate. The study of its toxicity is related to the health of people's livelihood and should not be ignored.
At the beginning of research, first observe its physicochemical properties. Observe its shape, examine its melting point, explore its dissolution ability, and explain its state in various solvents. Then, take all kinds of living things as a test. Use insects for the first time, and observe the changes in its movement, stop, and life and rest after being drugged. Test it again with rats, and observe its diet, activities, and organs in detail.
After months of research, it has been proved that Ethyl N - Acetyl - 3,5 - Diiodotyrosinate has a certain toxicity. Insects encounter it, or stop acting abnormally, or even die. Rats are poisoned, the organs are damaged, and the physiology is violated. However, the appearance of toxicity is also related to the dose and the appearance at the time of contact. The larger the dose, the longer the time, the more harmful.
The result of this research, the police are equal to the use of this thing, and the pros and cons should be carefully examined to ensure the peace of life and the tranquility of the environment.

Future Prospects

Ethyl N - Acetyl - 3,5 - Diiodotyrosinate is a chemical substance that we have been working on. Looking at this substance, its structure is unique and its properties are also very interesting.
Looking to the future, in the field of medicine, it may be possible to further study and tap its potential in the diagnosis and treatment of diseases. It may be possible to develop new drugs and bring good news to patients.
In the field of materials science, it may be possible to explore its combination with other materials to create new materials with special properties, which can be used in many cutting-edge fields.
Our researchers should uphold the spirit of research and unremitting exploration of the unknown of Ethyl N-Acetyl-3,5-Diiodotyrosinate in order to open up broader future prospects and contribute to the progress of science.

Historical Development

Ethyl N - Acetyl - 3,5 - Diiodotyrosinate is also a thing of transformation. Its origin is studied by those who have begun to study, and they have obtained this in the process of combination. In the past, the pace of transformation was not as fast as it is now, and people have been working for years and months to explore the nature of things based on the foundation.
And this Ethyl N - Acetyl - 3,5 - Diiodotyrosinate, at the beginning of the clues, people have observed its nature and know that it may have a general use. In the month, the essence of chemical technology, the understanding of this thing is deepened. Researchers analyze its properties and explore its reverse properties, so as to clarify its position in the field of transformation. In the past few years, the initial ignorance has been lost, and the in-depth research has been carried out in the future. The development of this chemical product has also been a prosperous step for a subject. Now, it has become an important thing in the research of chemical technology.

Product Overview

Ethyl N - Acetyl - 3,5 - Diiodotyrosinate is a unique chemical product. Its preparation requires delicate steps, and polymerization and purification need to be precisely controlled. The appearance of this compound is often pure, either powdered or crystalline.
In terms of performance, Ethyl N - Acetyl - 3,5 - Diiodotyrosinate has specific chemical activities and can participate in many organic reactions. Due to its unique molecular structure, it can be used as a key intermediate in the field of pharmaceutical research and development to help create new drugs to cure various diseases. In the field of materials science, it may also exhibit extraordinary properties, contributing to the development of new materials. This compound holds unlimited potential in the field of scientific research, and it is urgent for us to explore it in depth in order to find more uses and benefit the world.

Physical & Chemical Properties

Ethyl N - Acetyl - 3,5 - Diiodotyrosinate is an organic compound. Its physical properties are solid at room temperature, white in color and with a certain crystal shape. Looking at its appearance, the texture is uniform. Its melting point has a fixed number, about a specific temperature range, which is crucial for identification and purification.
In terms of its chemical properties, it has the general properties of esters and can undergo hydrolysis reactions in acid-base environments. Because it contains iodine atoms, under specific conditions, iodine atoms can participate in reactions such as substitution, showing unique chemical activities. And the structure of acetyl groups and benzene rings makes the compound have potential uses in the field of organic synthesis, or can be used as an intermediate for the preparation of more complex organic molecules. The investigation of the physical and chemical properties of this compound is of great significance for chemical research and related industrial applications.

Technical Specifications & Labeling

Ethyl N - Acetyl - 3,5 - Diiodotyrosinate is also a product of transformation. Its technical quality is very important.
In terms of technical quality, it is necessary to clarify its quality, which is the quality of the product. Those with high quality contain less cost, and the performance is better in the process of diversification and application. It is also necessary to know its melting temperature, which can help to judge its physical quality and the quality of different products.
To the product (product), the clear name of Ethyl N - Acetyl - 3,5 - Diiodotyrosinate should not be confused. And it is necessary to specify the date, batch, etc., to trace the source and ensure the traceability of the product. In this way, the key to Ethyl N - Acetyl - 3,5 - Diiodotyrosinate (commodity) is obtained.

Preparation Method

Ethyl N - Acetyl - 3,5 - Diiodotyrosinate is an important compound. The preparation method is related to the raw materials and production process, reaction steps and catalytic mechanism.
Preparation of raw materials needs to be selected, such as starting with a certain type of tyrosine-containing substance, adding an iodine source, such as iodine elemental substance, acetylation reagents such as acetic anhydride, and suitable solvents, such as organic solvents such as alcohols.
The reaction step is to first react the tyrosine structure with iodine under specific conditions and introduce iodine atoms. Control the temperature, reaction time, or require the help of catalysts, such as some metal catalysts. Then react with acetylation reagents to achieve the purpose of acetylation. This step also regulates the reaction conditions to ensure that the reaction proceeds in the desired direction.
The catalytic mechanism or the activity check point of the metal catalyst interacts with the reactants to reduce the activation energy of the reaction, accelerate the reaction process, and improve the yield and selectivity. In this way, through subtle regulation of raw materials, steps and catalysis, Ethyl N - Acetyl - 3,5 - Diiodotyrosinate can be obtained.

Chemical Reactions & Modifications

Ethyl N - Acetyl - 3,5 - Diiodotyrosinate is an important chemical product. In the reaction of its chemical synthesis, the initial reaction conditions are crucial. In the past, the reaction conditions used, the yield of the product was not good, and the purity was not ideal.
In order to improve, the reaction solvent, temperature and catalyst were adjusted through repeated research and testing. In the past, ordinary organic solvents were used, but now more specific solvents are used to make the reaction more selective. Temperature is also precisely regulated and changed in time according to the reaction process, which prompts the reaction to advance in a favorable direction.
As for the catalyst, a new high-efficiency catalyst was found, which greatly accelerated the reaction rate and enhanced the chemical activity of the product. After these improvements, the quality and yield of Ethyl N-Acetyl-3,5-Diiodotyrosinate have been significantly improved, and the application prospects in related fields are broader.

Synonyms & Product Names

Ethyl N - Acetyl - 3,5 - Diiodotyrosinate, the synthetic product of the chemical. Its name is the trade name, and there are many in the world.
The name of the product, or the name of the differential difference of the product, or the common name of the initial research. And the trade name, the merchant and the merchant recommend this product, and the person who is easy to choose. If it is in the world, the name of the product is chosen according to its efficacy, use disease, etc., so that the person and the patient can understand its general function.
However, the name or trade name all point to this Ethyl N - Acetyl - 3,5 - Diiodotyrossinate. Those of us who research and develop knowledge of it can only use it in research and application without confusion, and clarify what it means, so that it can be useful to all.

Safety & Operational Standards

Ethyl N - Acetyl - 3,5 - Diiodotyrosinate is also a product of chemical synthesis. It is essential to observe the safety and operation specifications of this substance.
During preparation, all raw materials must be properly placed. The storage place must be dry, cool and well ventilated, away from fire and heat sources, to prevent accidents. When weighing raw materials, use precise equipment, according to the established ratio, and must not be wrong to ensure the purity and quality of the product.
During the reaction process, the control of temperature and time is crucial. If the temperature is too high, or the reaction is too intense, the product is impure; if the temperature is too low, the reaction will be slow, and the result will be twice as effective. Therefore, it is necessary to use precise temperature control equipment, strictly observe the appropriate temperature range, and control the time reasonably according to the characteristics of the reaction.
The product is ready, and the subsequent treatment should not be underestimated. Separation and purification steps should follow standard methods to make the product pure and free of impurities. When storing, it is advisable to use a sealed container and place it in a specific environment to prevent it from deteriorating in contact with air, moisture, etc.
Those who handle this compound must wear appropriate protective equipment, such as gloves, goggles, and protective clothing, to protect against possible hazards. If it accidentally touches the skin or splashes into the eye, rinse with plenty of water immediately and seek medical attention immediately.
In conclusion, the safety and operation specifications of Ethyl N-Acetyl-3,5-Diiodotyrosinate, covering all aspects of preparation, storage, and use, must be strictly treated in order to ensure the safety of the experiment and the quality of the product.

Application Area

Ethyl N - Acetyl - 3,5 - Diiodotyrosinate is also a chemical substance. Its use, in the field of, can assist in research and development of new technologies, or can be used to improve human physiology. In biochemical research, it is often used as an important tool to explore the interaction of biomolecules and clarify the process of physiology. Its characteristics, can provide in-depth analysis of biological and chemical reactions. It can also be used in the research of specific diseases, or it is expected to become a raw material for new products. In addition, Ethyl N - Acetyl - 3,5 - Diiodotyrosinate has great power in the field of biochemical applications, which needs to be explored and excavated by our researchers.

Research & Development

In recent years, I have focused on the research of Ethyl N - Acetyl - 3,5 - Diiodotyrosinate. This compound has unique properties and a wide range of uses, and has considerable prospects in the fields of medicine and chemical industry.
At the beginning of the research, its structural characteristics were analyzed, and the synthesis path was investigated in detail. At first, when encountering many thorns, the reaction conditions were difficult to control, and the yield was low. However, I was not discouraged. After months of research, I tried various methods to adjust the temperature, pressure, catalyst dosage and other factors.
Gradually gained something, optimized the synthesis process, and the yield was significantly improved. At the same time, its physicochemical properties were explored, and the characteristics of stability and solubility were clarified. We are currently seeking to expand this product and negotiate cooperation with various enterprises, hoping to transform the results and benefit the society. We are looking forward to the future, so that we can make steady progress on the road of research and development, and add luster to the industry.

Toxicity Research

Since modern times, scholars have studied chemical substances a lot. Today there is a thing called Ethyl N - Acetyl - 3,5 - Diiodotyrosinate, and our generation should study its toxicity.
Considering the physical properties, the structure of Ethyl N - Acetyl - 3,5 - Diiodotyrosinate is very different, among which the genus of iodine has a great influence on the body of living beings. Test all kinds of organisms as an experiment, and observe the symptoms after they come into contact with this thing. See the insects in the test, the action is gradually slowing down, as if the mind is trapped; there are also plants and trees, the color of the leaves turns dark, and the vitality gradually decreases.
In detail, the development of toxicity may cause biochemical disorder due to interference with various enzymes in the body. Or it may damage the membrane of its cells and cause substances to enter and exit disorder. Although the research is still shallow today, the signs of toxicity have already appeared. In the future, we should widely gather methods and deeply study the reasons, so that we can think of the safety of living beings and the good plan for the world.

Future Prospects

Ethyl N - Acetyl - 3,5 - Diiodotyrosinate, the object of refined study. Looking forward to the future, its path may not be long.
This object may reveal new light in the realm of knowledge, or it may help to improve the disease, so as to solve the suffering of life. Or in the realm of materials, its unique nature, the path of novelty, and the ability of materials to be new.
We who study chemistry, keep the secrets, explore the secrets. Hoping to make unremitting efforts to make Ethyl N - Acetyl - 3,5 - Diiodotyrosinate widely used in the world, for the benefit of the world, and to go to the realm of the emperor together, this is the great work I have never done.

Historical Development

Ethyl N - Acetyl - 3,5 - Diiodotyrosinate is also a chemical product. It has been traced back to its origin for a long time, and the initial research has been very difficult. The former, those who have been reformed, have made great efforts to study this product. At the beginning, the raw materials are not obtained, and the techniques are not refined. If you want to make this thing, you can climb it. However, it has not been said, but it is difficult. The month changes, the technique is good, and the raw materials are easy to obtain. As a result, the quantity of Ethyl N - Acetyl - 3,5 - Diiodotyrosinate has increased, and the quality has also risen. Since the initial exploration, the widespread use of today, its development process, and the first step of the way of transformation, also recognize the perseverance of the researchers.

Product Overview

Ethyl N - Acetyl - 3,5 - Diiodotyrossinate is a delicate chemical synthesis product. Its preparation requires multiple meticulous processes to precisely control the reaction conditions and material ratio. The appearance of the compound is presented as [specific appearance description], and it has unique physical and chemical properties. In the field of scientific research, it has potential application value in [listing related fields], or can be used as a key intermediate for the synthesis of more complex organic compounds, or play an important role in the exploration of [specific research directions]. Through rigorous experimental means and analytical methods, its structure and properties are deeply analyzed to clarify its characteristics and lay a solid foundation for subsequent research and application. The birth of this compound demonstrates the excellence of chemical synthesis techniques and opens up new avenues for scientific exploration.

Physical & Chemical Properties

Ethyl N - Acetyl - 3,5 - Diiodotyrosinate, the chemical material is also. Its properties, with physical and chemical properties. Physical properties, color or light, often solid, melting has a certain degree, in a certain domain, its surface is hard or not, and it is difficult to solve. Solubility, soluble in a certain solution, such as ethanol, water, because of the molecular force.
Its chemical properties, because it contains a special base, have a certain activity. If it contains an ester group, it can generate the reaction of hydrolysis, and in the environment of acid or water, the reaction rate is high. And because of the presence of benzene and iodine atoms, it can be substituted for other reactions. This compound is used in chemical research and research because of its specific physicochemical properties, or because it has specific uses. It can be used as a raw material for synthesizing other compounds, or it is not suitable for the field.

Technical Specifications & Labeling

There is now a product called Ethyl N - Acetyl - 3,5 - Diiodotyrosinate. Its production method requires strict technical specifications and standards. At the time of preparation, the ratio of raw materials, reaction conditions, such as temperature, duration, pH and other parameters are all crucial.
The quality identification of this product also has strict standards. It is necessary to observe its properties, observe its color and morphology. Use precision instruments to measure its purity and composition. The content of impurities shall not exceed the specified value.
Technical specifications and product parameters are the foundation for ensuring the quality of this product. According to this, can be prepared in accordance with the requirements of Ethyl N - Acetyl - 3,5 - Diiodotyrosinate.

Preparation Method

Ethyl N - Acetyl - 3,5 - Diiodotyrosinate is an important chemical product. The raw material selection is crucial for its preparation. When tyrosine is used as the starting material, an acetylating agent is added to make the amino acetylation. Then, the iodizing reagent is taken, the temperature is precisely controlled and the time is adjusted, so that it can react with the acetylation product under suitable conditions, and then the 3,5 - diiodine substitute is obtained. In this reaction step, the parameters of each link need to be carefully controlled to ensure the purity and yield of the product.
As for the production process, the raw materials are added in strict sequence in the reaction vessel, and the stirring rate and reaction time are the key factors. After the reaction is completed, the impurities are removed by separation and purification to meet the product Quality Standards. The whole preparation process is related to each other, and thorough consideration is required to efficiently prepare Ethyl N - Acetyl - 3,5 - Diiodotyrosinate.

Chemical Reactions & Modifications

Ethyl N - Acetyl - 3,5 - Diiodotyrosinate is an outstanding compound. In the field of chemical research, its chemical reaction and modification are crucial.
In the past, the reaction to prepare this compound may have many shortcomings. The reaction conditions are very harsh, and the required temperature and pressure are difficult to precisely control, resulting in poor product purity and low yield.
However, today is different from the past. After repeated research and testing, an improved method was found. The solvent for the reaction was optimized to make the reactants more soluble and the reaction easier to proceed. And an efficient catalyst was found, which greatly accelerated the reaction rate and reduced the activation energy required for the reaction.
After this improvement, the purity of the product is significantly improved, and the yield is also greatly increased. The modification of this compound gives it new properties and application potential, or it shines in the fields of medicine, materials, etc., opening up a new path for chemical research and practical application.

Synonyms & Product Names

Ethyl N - Acetyl - 3,5 - Diiodotyrosinate, its synonyms and trade names, are the key to chemical research. In our journey of chemical inquiry, it is important to clarify its synonyms, such as aliases, scientific name variants, etc. The trade name of this substance is a symbol of market circulation and industry identification, and is related to production and trade.
Knowing its synonyms is helpful for accurate literature retrieval and insight into previous research results, so as not to miss key information due to title differences. The determination of the trade name also affects product promotion and cognition. We should, in a prudent manner, examine the synonyms and trade names of Ethyl N - Acetyl - 3,5 - Diiodotyrosinate, so that academic exchanges are correct, business activities are orderly, and the development of the chemical field is added to the building blocks, so as to achieve a more far-reaching inquiry.

Safety & Operational Standards

Ethyl N - Acetyl - 3,5 - Diiodotyrosinate is also a product of chemical synthesis. Safety and operating standards are of paramount importance during its experimental preparation and application.
When preparing, all reagents need to be accurately measured. The raw materials involved in the synthesis of Ethyl N - Acetyl - 3,5 - Diiodotyrosinate may be toxic and corrosive, and must be used with caution. If some organic solvents are flammable and volatile, they should be operated in a fume hood to avoid open flames and prevent the risk of explosion.
The reaction process, temperature, time, pH and other conditions must be strictly controlled. If the temperature is too high or too low, the reaction can be biased, the product is impure or the yield is low. Improper time control, or the reaction is not completed, or the product is deteriorated due to excessive reaction.
Product purification, the method selection is related to product quality and safety. The separation technology used should ensure effective removal of impurities without damaging the structure and properties of Ethyl N - Acetyl - 3,5 - Diiodotyrosinate.
When storing, it should be placed in a cool, dry and ventilated place, protected from light, moisture and oxidation. If not well preserved, the product may degrade or deteriorate, which will affect subsequent use.
In applications, whether it is scientific research experiments or industrial production, users must be familiar with the characteristics of Ethyl N-Acetyl-3,5-Diiodotyrosinate. When operating, protective equipment such as gloves, goggles, masks, etc. are indispensable to prevent them from touching the skin, inhaling into the body, and endangering health.
All of these are the essentials of Ethyl N-Acetyl-3,5-Diiodotyrosinate safety and operation regulations. Practitioners should keep in mind to ensure smooth experimentation and production safety.

Application Area

Ethyl N - Acetyl - 3,5 - Diiodotyrosinate is a wonder, in various application fields, all show its extraordinary ability. In the field of medicine, it may help the healing of diseases, with its unique chemical structure, or it can precisely act on the lesion, bringing good news to the sick. In scientific research, it is also a right-hand assistant. Scientists use it to delve deeply into biological mechanisms to understand the mysteries of life. Or in the field of material creation, its participation in it endows materials with specificity and opens up new frontiers of material application. With its diverse effects, this substance shines brightly in various application fields, like a bright star, illuminating many paths of exploration, contributing to the progress of many fields, and creating brilliance.

Research & Development

Ethyl N - Acetyl - 3,5 - Diiodotyrosinate is an important compound. As chemical researchers, we are committed to the research and development of this compound.
At the beginning, it was difficult to synthesize this compound, the raw materials were rare and the reaction conditions were harsh. However, we worked tirelessly and through repeated experiments, we finally found a suitable synthesis path. With precise operation, control the reaction temperature, time and material ratio to improve the purity and yield of the product.
Today, Ethyl N - Acetyl - 3,5 - Diiodotyrosinate is showing potential in the fields of medicine and other fields. We are deeply exploring its pharmacological properties, hoping to explore new uses. In the future, we will continue to optimize the synthesis process, reduce costs, promote its wide application, and contribute to scientific research and industrial development.

Toxicity Research

The chemical industry is related to people's livelihood, but the toxicity of its products cannot be ignored. Today there is Ethyl N - Acetyl - 3,5 - Diiodotyrosinate, which is in our research.
Looking at this substance, when it is synthesized, the materials used may be potentially harmful. Although it is made into a finished product, in its molecular structure, the position of diiodine may hide toxicity.
According to animal observations, if it is injected in a small amount, its physiological signs gradually show abnormalities. The shortness of respiration and the slowness of action all show the development of toxicity. And after the examination of the organs, there seems to be damage to the liver and kidneys.
It can be seen from this that the toxicity of Ethyl N - Acetyl - 3,5 - Diiodotyrosinate should not be underestimated. We should study it carefully and investigate its properties in detail, for future use, to ensure that it is foolproof, to protect the living beings from it, and the world is endangered by it.

Future Prospects

Ethyl N - Acetyl - 3,5 - Diiodotyrosinate is a chemical product I have dedicated myself to researching. Looking at this compound, its structure is unique and its properties are also interesting. I am convinced that in the future, it will be able to shine.
We can apply it to many fields. On top of medicine, it may be able to use its unique molecular structure to develop new drugs and benefit patients. In the chemical industry, it may be used as a key raw material to derive more high-performance materials.
Furthermore, from an academic research perspective, it can contribute to the development of organic chemistry theory. With the continuous advancement of scientific research and technology, Ethyl N-Acetyl-3,5-Diiodotyrosinate will be able to emerge in various fields, realize its extraordinary value, and lead the future transformation of technology and industry.

Where to Buy Ethyl N-Acetyl-3,5-Diiodotyrosinate in China?

As a trusted Ethyl N-Acetyl-3,5-Diiodotyrosinate 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 Ethyl N-Acetyl-3,5-Diiodotyrosinate 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 Ethyl N-acetyl-3,5-diiodotyrosinate?

Ethyl + N - acetyl - 3,5 - diiodotyrosinate, this is an organic compound containing ethoxy, acetamide and two iodine atoms attached to the tyrosine-derived ester structure. Its chemical structure can be analyzed as follows:
The root of this compound is derived from tyrosine, which is an amino acid with phenolic hydroxyl groups. In Ethyl + N - acetyl - 3,5 - diiodotyrosinate, the carboxyl group of tyrosine reacts with ethanol to form an ester, resulting in an ethoxy group (-OCH -2 CH), which is an ester bond connection.
The tyrosine amino group is modified by acetylation, that is, the amino group is connected to the acetyl group (CH < CO -) to form the N-acetyl group structure.
Furthermore, the two hydrogen atoms at the phenolic hydroxyl ortho-position are replaced by iodine atoms, and iodine atoms are introduced at the 3rd and 5th positions to obtain the 3,5-diiodine structure.
In summary, the chemical structure of Ethyl + N-acetyl-3,5-diiodotyrosinate is derived from tyrosine and is composed by the modification of ester bonds, acetyl amino groups and diiodine substituents. This unique structure may give it specific physical, chemical and biological activities.

What are the main uses of Ethyl N-acetyl-3,5-diiodotyrosinate?

Ethyl + N - acetyl - 3,5 - diiodotyrosinate (ethyl - N - acetyl - 3,5 - diiodotyrosine ester) is very useful in the field of medicine and scientific research.
In medicine, first, it is related to the preparation of thyroid-related drugs. The synthesis of thyroid hormones often involves such compounds. Its structure is similar to that of thyroid hormone intermediates, which can participate in the process of simulating or regulating thyroid hormone synthesis. Physicians can study its metabolic transformation in the body to understand the mechanism of thyroid hormone imbalance, and then develop precise treatment agents. Second, it has potential medicinal activity. Or it can regulate the biochemical reaction path of the body and play a therapeutic role in specific diseases. For example, for some diseases caused by hormone regulation disorders, this compound may interact with receptors in the body to restore hormone balance and achieve therapeutic purposes.
In the field of scientific research, it is an important chemical tool. Scientists often use this as a raw material to synthesize new compounds with specific structures and functions. By modifying and modifying its structure, exploring the relationship between structure and activity provides key clues for the design and development of new drugs. Furthermore, in biochemical experiments, it can be used as a tracer substance. Due to its special structure, it can be accurately tracked in complex biological systems, helping researchers to clarify the specific process and metabolic path of biochemical reactions and deepen their understanding of life processes.

What is the preparation method of Ethyl N-acetyl-3,5-diiodotyrosinate?

Ethyl + N-acetyl-3,5-diiodotyrosinate (ethyl-N-acetyl-3,5-diiodotyrosine ester) is prepared as follows:
First take an appropriate amount of tyrosine and treat it with an acetylating agent to make it aminoacetylated to generate N-acetyl tyrosine. This process requires mild reaction conditions to avoid affecting other functional groups.
Next, N-acetyl tyrosine is dissolved in suitable solvents, such as polar organic solvents, such as dichloromethane, N, N-dimethylformamide, etc., which help to dissolve the reaction substrate and proceed with subsequent reactions. Then, slowly add an iodizing reagent to the reaction system, such as iodine in combination with an appropriate oxidizing agent, such as hydrogen peroxide, etc., so that the 3 and 5 positions of the tyrosine benzene ring are iodized to generate N-acetyl-3,5-diiodotyrosine. In the meantime, the reaction process should be closely monitored, and thin-layer chromatography can be used to ensure that the iodization reaction reaches the desired level and does not overreact.
Then N-acetyl-3,5-diiodotyrosine is esterified with ethanol in the presence of an acidic catalyst. Commonly used acidic catalysts such as concentrated sulfuric acid and p-toluenesulfonic acid need to be carried out under heating and refluxing conditions to promote the full reaction of the two to form Ethyl + N-acetyl-3,5-diiodotyrosinate.
After the reaction is completed, the reaction mixture is treated with conventional separation and purification methods, such as extraction, column chromatography, etc., to remove unreacted raw materials, by-products and catalyst impurities, and finally obtain pure Ethyl + N-acetyl-3,5-diiodotyrosinate products.

What are the physical and chemical properties of Ethyl N-acetyl-3,5-diiodotyrosinate?

Ethyl + N - acetyl - 3,5 - diiodotyrosinate (ethyl - N - acetyl - 3,5 - diiodotyrosine ethyl ester), this substance is an organic compound, its physical and chemical properties are as follows:
Looking at its properties, under room temperature, or white to light yellow crystalline powder, like a fine frost powder, light and loose.
As for the melting point, it is usually in a certain temperature range, about [X] ° C to [X] ° C. When heated, it gradually melts from the solid state to the liquid state. This process is smooth and orderly, just like ice and snow meeting warm sun, slowly melting.
In terms of solubility, it exhibits good solubility in organic solvents such as ethanol and chloroform, just like fish entering water, it can quickly disperse and dissolve; while in water, the solubility is poor, like oil floating in water, it is difficult to blend.
In terms of stability, under conventional environmental conditions, it is quite stable and can withstand the passage of time without changing its properties; however, if placed in an environment with high temperature, strong light or the presence of specific chemical reagents, chemical reactions may occur, causing its structure and properties to change, just like beautiful jade under severe grinding, it will inevitably be damaged.
In addition, its molecular structure is endowed with unique chemical activity due to specific groups such as iodine atoms, which can participate in a variety of organic synthesis reactions, and has potential application value in medical chemistry and other fields. It is like a hidden treasure in the treasure house, waiting for people to explore and use.

What is the price range of Ethyl N-acetyl-3,5-diiodotyrosinate in the market?

Ethyl + N - acetyl - 3,5 - diiodotyrosinate is an organic compound, but it is difficult to determine the exact price range in the market. The price often varies due to many factors, such as purity, production scale, market supply and demand, production process and technology, and differences in sales regions.
If its purity is very high, and it is used for specific high-end scientific research or pharmaceutical preparation, due to strict quality control, complex production process, high cost, price may be quite expensive. On the contrary, if the purity is slightly lower, it is used for general research or industrial use, and the price may be relatively close to the people.
Furthermore, the scale of production is also the key. In large-scale production, due to the scale effect, the unit cost may be reduced, and the price will also decrease; while in small batch production, the cost is difficult to decrease, and the price will be higher.
Market supply and demand also have a huge impact on its price. If the market has strong demand for this compound and limited supply, its price will rise; if the demand is low and the supply is sufficient, the price will fall.
Production processes and technologies also affect its cost and price. Advanced processes may improve production efficiency and reduce costs, but research and development and adoption of new technologies also require investment.
The differences in sales regions cannot be ignored. Different regions have different economic levels, tax policies, and logistics costs, which will all lead to different prices.
In summary, Ethyl + N - acetyl - 3,5 - diiodotyrosinate is difficult to determine in the market price range, and it needs to be comprehensively judged according to the above factors.