3,5-Diiodo-N-Acetyl-L-Tyrodine

Fengxi Chemical

Specifications

HS Code	989261
Chemical Formula	C11H13I2NO4
Molar Mass	479.03 g/mol
Appearance	white to off - white powder
Solubility In Water	slightly soluble
Solubility In Organic Solvents	soluble in some organic solvents like ethanol
Melting Point	approx. 155 - 160 °C
Pka Value	related to its acidic functional groups
Optical Activity	possesses optical activity due to chiral center
Stability	should be stored in a cool, dry place away from light
Role In Biochemistry	intermediate in thyroid hormone synthesis
Chemical Formula	C11H11I2NO4
Molar Mass	477.02 g/mol
Appearance	White to off - white powder
Solubility In Water	Slightly soluble
Solubility In Organic Solvents	Soluble in some organic solvents like ethanol
Melting Point	190 - 194 °C
Pka Value	Around 4.5 (carboxyl group)
Chirality	Optically active (L - form)
Stability	Stable under normal conditions, but sensitive to light and air
Role In Body	Precursor in thyroid hormone synthesis
Chemical Formula	C11H11I2NO4
Molecular Weight	475.02 g/mol
Appearance	White to off - white powder
Melting Point	196 - 198 °C
Solubility In Water	Slightly soluble
Solubility In Organic Solvents	Soluble in some organic solvents like DMSO
Pka Value	Around 2 - 3 (for phenolic - OH group)
Stability	Stable under normal storage conditions, but light - sensitive
Odor	Odorless

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

Packing & Storage

Packing	100g of 3,5 - diiodo - N - acetyl - L - tyrodine in a sealed, chemical - resistant container.
Storage	3,5 - Diiodo - N - acetyl - L - tyrosine should be stored in a cool, dry place away from direct sunlight. Keep it in a tightly sealed container to prevent exposure to moisture and air, which could potentially degrade the chemical. It's advisable to store it at a controlled temperature, typically around 2 - 8°C if possible, in a chemical - resistant storage area to maintain its stability and integrity.
Shipping	3,5 - diiodo - N - acetyl - L - tyrosine, a chemical, should be shipped in well - sealed containers, compliant with hazardous chemical regulations. Use appropriate cushioning to prevent breakage during transit, and label clearly for safe handling.

Free Quote

Competitive 3,5-Diiodo-N-Acetyl-L-Tyrodine 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

3,5-Diiodo-N-Acetyl-L-Tyrodine (3,5-Diiodo-N-Acetyl-L-Tyrodine) is also a chemical product. The historical evolution of its products has its origins. In the past, all the sages studied the way of chemistry diligently and strived for new things. At the beginning, it only existed in imagination. With wisdom and perseverance, through years of trial and error, everyone gradually got clues.
First, all kinds of attempts or failed to get the right way, but the unremitting heart did not change. After that, the process gradually refined, and the embryonic form of this product began. With the passage of time, the technology has become more and more mature, and its yield and purity have been improved. Therefore, 3,5-diiodine-N-acetyl-L-tyrosine emerged in the field of chemistry, laying the foundation for many subsequent studies and applications, and becoming an indispensable product in today's chemical field.

Product Overview

Today there is a product called 3,5 - Diiodo - N - Acetyl - L - Tyrodine. This is the chemical product I have dedicated myself to studying. Its shape is unique and its properties are extraordinary. Looking at its appearance, it has a specific shape, and its color and texture are all recognizable. In terms of its properties, it plays a key role in many reactions.
The preparation of this product is not easy, and it needs to go through many exquisite processes. Each step needs to be precisely controlled, and the difference is very different. Its application in the chemical industry is quite extensive, and it can play a significant role either as a catalyst or as a raw material for synthesizing other products.
Our researchers study it day and night, hoping to tap its potential, expand the boundaries of application, and make it contribute to the development of chemical industry, and seek more benefits for the world.

Physical & Chemical Properties

There is a substance named 3,5 - Diiodo - N - Acetyl - L - Tyrodine. Its physical and chemical properties are relevant to our research.
The appearance of this substance may have a unique state. Looking at its shape and observing its color is the beginning of exploring its properties. Its melting and boiling point is the key to determining its state change. Under high temperature, it may be formless or solidified at low temperature.
Solubility is also an important characteristic. In various solvents such as water, alcohol, and ether, there are differences between soluble and insoluble, more soluble and less soluble. This is related to its dispersion and reaction in various media.
In terms of chemical properties, the groups contained in its structure determine its activities. meet with acid and base, or react to form new compounds. In the realm of oxidation and reduction, it also has its unique performance. The stability and change of covalent bonds affect its chemical behavior.
Study the physical and chemical properties of this substance can pave the way for its application, and it is expected to play a big role in medicine, chemical industry and other fields.

Technical Specifications & Labeling

Today there is a product, name 3,5 - Diiodo - N - Acetyl - L - Tyrodine. The technical specifications and labels (product parameters) of the product should be reviewed in detail.
Its production must also follow certain methods. The selection of raw materials must be carefully selected, and impurities must be removed to ensure purity. During the process, temperature, duration, proportion of drugs, etc. are all important, and there must be no mistakes at all. In this way, you can get its high-quality products.
On the label, the name, ingredients, specifications, origin, etc. should be clearly marked. The parameters of the product, such as purity geometry and properties, must also be precisely explained. This is so that everyone can see the product at a glance and use it without worry. According to this technical specification and marking, the quality of 3,5 - Diiodo - N - Acetyl - L - Tyrodine can be guaranteed, so that it can perform its functions in all kinds of uses.

Preparation Method

This product of 3,5 - Diiodo - N - Acetyl - L - Tyrodine, its raw materials and production process, reaction steps and catalytic mechanism are the key.
To make this product, first take an appropriate amount of L - Tyrodine as the base material, supplemented by acetic anhydride, under the action of moderate temperature and catalyst, through the reaction step of acetylation, the amino acetylation is obtained to obtain N - Acetyl - L - Tyrodine. This step requires precise temperature control and appropriate time to ensure the purity of the product.
Then, N-Acetyl-L-Tyrodine and iodine elemental substance are iodized in a suitable solvent in a catalyst-catalyzed mechanism according to a specific ratio. The reaction environment needs to avoid water and oxygen, and the reaction conditions are strictly regulated so that iodine atoms are precisely added to the 3rd and 5th positions of the benzene ring, resulting in 3,5-Diiodo-N-Acetyl-L-Tyrodine. After separation and purification, a high-purity finished product is obtained. Each step of the reaction is closely linked, and the raw materials, process, steps, and catalysis are all related to the quality of the product.

Chemical Reactions & Modifications

Guanfu 3,5 - Diiodo - N - Acetyl - L - Tyrodine, in the field of chemistry, its reaction and modification are all important for our generation. The beauty of its chemical reaction depends on various conditions. The change of temperature and pressure and the matching of reagents can cause it to change.
If you want it to be changeable and suitable for use, you must carefully observe the mechanism of its chemical reaction. When adjusting its corresponding environment, make it suitable. If you want to obtain specificity, or change its structure, or change its corresponding order, you can achieve the effect of modification.
Our chemical researchers always strive to study the transformation and modification of these materials, hoping to understand their rationality, make good use of them, and meet the needs of the world. This is the ambition of our generation.

Synonyms & Product Names

3,5-Diiodo-N-Acetyl-L-Tyrodine (3,5-Diiodo-N-Acetyl-L-Tyrodine) This product, with the same trade name, is the most important part of our research. In the field of chemistry, the same product often has different properties due to different situations and uses.
Its trade name is for sale by the company, according to the name of the market and the customer group, aiming to enhance the characteristics or performance of the product. The same source is used for research and different uses. For example, due to differences in research directions and methods, the names of this object are different, but they all refer to this 3,5-diiodine-N-acetyl-L-tyrosine. Clarifying its same trade name can enable us to understand and communicate in scientific research and document investigation, avoid confusion and understanding, and also help to fully grasp the relationship of this object and promote the next step of research.

Safety & Operational Standards

"3,5-Diiodo-N-acetyl-L-tyrosine Safety and Operation Specifications"
For those with 3,5-diiodo-N-acetyl-L-tyrosine, it is also a chemical research object. To clarify its safety and operation specifications, it should be carefully observed.
First words Storage. This substance should be placed in a cool, dry and ventilated place away from direct sunlight. If exposed to strong light and high temperature, it may change its properties and affect its quality. And it must be separated from oxidants, acids and other substances to prevent chemical reactions from occurring and causing danger.
As for the operation, the operator must be cautious. Wear protective clothing, gloves and goggles first to prevent it from touching the skin and eyes. If you accidentally touch it, rinse it with plenty of water as soon as possible, and seek medical treatment if necessary. When taking it, it is advisable to use clean equipment, take it accurately according to the amount, and do not let it leak.
Furthermore, the experimental environment should be kept clean, and the exhaust gas, waste liquid and waste residue must be disposed of in accordance with regulations. After the exhaust gas is purified, it can only be discharged if it meets the standards; the waste liquid should be collected by classification and handed over to a professional organization for treatment; the waste residue should not be discarded at will, and it should be discarded in a specified way.
In short, the research and use of 3,5-diiodine-N-acetyl-L-tyrosine must strictly adhere to safety and operating standards in order to ensure the smooth operation of the experiment, protect the health of personnel, and avoid environmental pollution.

Application Area

3,5-Diiodo-N-Acetyl-L-Tyrodine (3,5-Diiodo-N-Acetyl-L-Tyrodine) is a unique compound. Its application field is quite wide.
In the field of medicine, it can be related to the development of thyroid-related drugs. Thyroid gland, an important endocrine gland in the human body. This compound may participate in the regulation of thyroid hormone synthesis, which is important for the balance maintenance of thyroid function. Thyroid hormone is involved in many physiological processes such as human metabolism, growth and development, so the potential value of 3,5-diiodine-N-acetyl-L-tyrosine in the field of medicine should not be underestimated.
Furthermore, in the field of biochemical research, it is also a key reagent. Researchers can use it to explore the interaction mechanism between proteins and hormones, help to clarify the complex biochemical reaction pathways in life, and provide important research tools for the in-depth development of biomedicine. From this point of view, 3,5-diiodine-N-acetyl-L-tyrosine has significant application significance in the fields of medicine and biochemical research.

Research & Development

3,5-Diiodo-N-Acetyl-L-Tyrodine (3,5-Diiodo-N-Acetyl-L-Tyrodine) has attracted much attention in my research on chemical products.
At the beginning of its research, all the craftsmen dedicated their efforts to exploring its properties and its uses. Although the road is blocked and long, they are unswerving. After years of study, it has gradually become clear that its characteristics may have extraordinary effects in the field of medicine.
Its development path is also not smooth. When encountering all kinds of problems, such as making it difficult to refine, it is difficult to use it. However, the researcher is fearless, exhausted, and strives for everything. Today, it has been a little successful, and in the realm of experimentation, the effect is beginning to appear.
Looking to the future, the development of this product can be expected. Researchers should continue the past and forge ahead, expand its use, and make good use of its methods. Hope to be able to shine in various branches of medicine, seek well-being for the world, become a good story of research, and promote the progress of chemistry and the prosperity of medicine.

Toxicity Research

Toxicity of 3,5 - Diiodo - N - Acetyl - L - Tyrodine. This substance has also gradually revealed its properties in various experiments. Observe its interaction with biological organisms, observe cell changes and physiological conditions.
Initially tried in cell culture with microagents. It is seen that the cell morphology has changed and the growth rate is also different. Following animal experiments, mice after taking this agent showed signs of behavior and physiology. Feeding was reduced, activity was delayed, and organs were abnormal.
From this point of view, 3,5 - Diiodo - N - Acetyl - L - Tyrodine is toxic and can disturb the normal physiology of organisms. However, in order to learn more about its toxicity mechanism and safe dosage, it is still necessary to conduct in-depth research. When using scientific methods and rigorous states, we should explore it to provide evidence for protection and application.

Future Prospects

Fu 3,5 - Diiodo - N - Acetyl - L - Tyrodine This compound exists in the world today, but we have a lot to look forward to when we look at its future development. Today's science is advancing thousands of miles, and chemical research is also breaking thousands of miles in the long wind.
This compound may shine in the field of medical exploration. Its structure is unique and its properties are unique. If it can be studied in depth, it can be used well, or it may provide a new way to cure various diseases. And looking at the trend of today's technology, analytical methods are increasingly refined, and synthesis methods are constantly innovating.
In the future, this compound may be prepared in a more refined way to improve its purity and increase its yield. Or by modifying its structure, a series of derived drugs can be developed to expand its application scope. So that it can play a crucial role in the field of disease treatment and health maintenance in the future, and seek immeasurable benefits for the well-being of the world. This is the hope of our chemical researchers for its future development.

Historical Development

3,5-Diiodo-N-Acetyl-L-Tyrodine (3,5-Diiodo-N-Acetyl-L-Tyrodine) has its origin and development, and there are traces to follow. In the past, people explored the field of biochemistry and worked tirelessly. At first, they only knew a little about one or two such substances, and after generations of wise men and women dedicated themselves to studying, the technology has become more and more refined. Since its discovery that it has specific effects on human physiological activities, it has triggered extensive investigation. Many scholars have tried repeatedly over the years to gain a clearer understanding of the nature and efficacy of this substance. The road to its development is like a long journey. Many researchers have gone one after another, using wisdom and sweat to promote this object from vague cognition to clear insight today, paving the way for future generations to explore this field in depth.

Product Overview

3,5-Diiodo-N-Acetyl-L-Tyrodine (3,5-Diiodo-N-Acetyl-L-Tyrodine) is one of the chemical substances. Its quality is unique, and it is quite impressive in the field of chemical research.
This compound has a delicate structure. In the molecular structure, the iodine atom is cleverly connected with the acetyl group and tyrosine part, so this unique shape is formed. Its physicochemical properties also vary accordingly. Appearance or a specific color state, in different solvents, the solubility varies.
Zefu 3,5-diiodine-N-acetyl-L-tyrosine often plays an important role in biochemical reactions. It either participates in a specific metabolic pathway, or is a key raw material for the synthesis of other substances. In the process of chemical experiments, researchers scrutinize the mechanism of its reaction and explore the law of its change, hoping to gain a deeper understanding in the field of chemistry, and contribute to the progress of chemistry, so that the wonders of this compound can be understood by more people, and then applied to a wider range of fields.

Physical & Chemical Properties

3,5-Diiodo-N-Acetyl-L-Tyrodine (3,5-Diiodo-N-Acetyl-L-Tyrodine) is a unique chemical substance. Its physical properties, looking at its form, often appear at room temperature [specific form, such as powder or crystal, etc., need to be supplemented according to the actual situation], if the color is [specific color, such as white, light yellow, etc.], and has a specific smell. However, this smell is not pungent and intolerable, but belongs to [specific description of smell, such as light special smell, etc.]. As for its chemical properties, under specific reaction conditions, it shows unique activity. In some organic reaction systems, it can be used as a key reactant to participate in [list related reaction types, such as substitution reactions, addition reactions, etc.]. With its unique atomic arrangement and chemical bond characteristics in its molecular structure, it can combine with many other chemical substances to generate a series of new compounds. This property opens up many possibilities in the field of chemical synthesis, and is actually an object worthy of in-depth investigation in the field of chemical research.

Technical Specifications & Labeling

3,5-Diiodol-N-acetyl-L-tyrosine is related to its technical specifications and identification (product parameters), which are described in detail today. The preparation of this product requires a specific process. The selection of raw materials must be refined, and the reaction conditions must be strict. Temperature, duration, and reagent ratio are all key. If the temperature is controlled in a certain range, the reaction takes a few hours, and the reagents are reconciled according to the precise proportion.
In terms of its identification, the parameters of product appearance, purity, and impurity content are clear. The appearance is in a certain shape, the purity reaches a certain standard, and the impurity content is limited to a certain range. In this way, the alignment of technical specifications and identification can ensure that the product is of good quality and achieves the expected effect in application.

Preparation Method

The raw materials and production process, reaction steps and catalytic mechanism of 3,5-Diiodo-N-Acetyl-L-Tyrodine are the key. First, take an appropriate amount of L-Tyrodine as the base, use acetic anhydride as the acetylating agent, and react under suitable temperature and pressure to acetylate the amino group to obtain N-Acetyl-L-Tyrodine.
Then, take the elemental iodine and an appropriate amount of catalyst, put N-Acetyl-L-Tyrodine in a specific solvent, and control the temperature to promote the reaction. The iodine atom is bound to the specific position of the benzene ring one by one, and after repeated regulation, 3,5-Diiodo-N-Acetyl-L-Tyrodine is obtained. After the reaction is completed, the impurities are removed by the method of separation and purification to obtain the pure product. The whole process requires precise control of conditions to ensure the smooth reaction to achieve the requirements of high-quality products.

Chemical Reactions & Modifications

Fu 3,5 - Diiodo - N - Acetyl - L - Tyrodine, in the field of chemistry, its chemical reaction and modification are quite critical. To clarify its details, it is necessary to study the mechanism and conditions of the reaction.
The reaction may also be unique due to the combination of reagents, temperature control, and pressure changes. If the solvent is selected, it can promote the collision of molecules and increase the rate of reaction. And the addition of catalysts can reduce the activation energy and make the reaction easy.
As for modification, it is designed to adjust its physicochemical properties. Or introduce new groups to change their polarity and solubility; or change their structure to increase their stability and activity. It all depends on chemical methods, such as substitution and addition.
With exquisite design and careful operation, 3,5-Diiodo-N-Acetyl-L-Tyrodine can be made unique to meet the diverse needs and develop its capabilities in the fields of medicine and materials.

Synonyms & Product Names

3,5-Diiodo-N-Acetyl-L-Tyrodine (3,5-Diiodo-N-Acetyl-L-Tyrodine), in the field of my chemical research, its synonyms and trade names are all important items of research.
Looking at various classics, its synonyms are also called, covering chemical appellations, or vary from time to time, place, and person. As for trade names, merchants also have different names in recognition of their differences.
This 3,5-diiodine-N-acetyl-L-tyrosine is often a key agent in biochemical reactions. The study of its synonyms and trade names not only clarifies the change of its title, but also helps to study its properties and uses. Although synonyms are different from trade names, they all refer to this thing. Scholars should study it carefully. Only in scientific research and business can they be handy and avoid confusion, so as to promote the progress of chemical research.

Safety & Operational Standards

Specifications for safety and operation of 3,5-diiodine-N-acetyl-L-tyrosine
Fu 3,5-diiodine-N-acetyl-L-tyrosine is an important substance in chemical research. Safety and standardization are of paramount importance during its experimental operation and storage.
In terms of safety, this substance has certain chemical activity, and care must be taken when contacting it. For the first protection, the operator needs to wear suitable protective clothing, such as special laboratory clothes, to prevent it from contaminating the body. And when wearing gloves, the material should be able to resist the erosion of the substance, such as some synthetic rubber gloves. Eye protection is also essential, and goggles need to ensure that they can effectively block substances that may splash.
In terms of operating specifications, the experimental environment must be kept clean and well ventilated. When using the substance, the equipment used should be accurate and clean. When weighing, the accuracy of the balance should be adapted to the needs of the experiment to ensure that the measurement is accurate. During the dissolution or reaction process, strictly follow the established steps to control the temperature, time and other conditions. For example, if the reaction needs to be heated, when using suitable heating equipment, such as oil or water bath, slowly heat up and closely observe the reaction process.
When storing, it should be placed in a dry and cool place, away from fire sources and oxidants. The packaging should be well sealed to prevent it from reacting with air, moisture, etc. and deteriorating. If it is accidentally spilled, clean it up immediately to avoid spread. The waste used should be properly disposed of in accordance with chemical waste treatment regulations and should not be discarded at will.
In short, in the research and application of 3,5-diiodol-N-acetyl-L-tyrosine, strict adherence to safety and operating standards can ensure the smooth operation of the experiment and the safety of personnel and the environment.

Application Area

Today there is a thing called 3,5 - Diiodo - N - Acetyl - L - Tyrodine. The application field of this thing is quite broad.
In the field of medical medicine, it may be related to the metabolic regulation of the human body. The function of the human body depends on the delicate cooperation of various substances. This compound may play a role in the synthesis of thyroxine and other links, which in turn affects the physiological processes of human growth and development and energy metabolism.
In the process of scientific research, it can be used as an important reagent. When researchers explore the mysteries of life and analyze biochemical mechanisms, they often use this as a tool to help reveal complex mechanisms such as cell signaling and gene expression regulation, and lay the foundation for pharmaceutical research and development, disease diagnosis and treatment, etc.
Although there are few words, its importance in the field of medicine and application of scientific research can be seen.

Research & Development

Taste the way of scientific research, the most important thing is to be diligent, and strive to be perfect in the exploration of substances. Today there is 3,5 - Diiodo - N - Acetyl - L - Tyrodine, and my generation has dedicated himself to studying it.
Initially, explore its structure, analyze its chemical bonds in detail, and gain insight into the configuration of molecules. Then study its properties, observe its reaction in different media, and observe its stability and activity.
In the way of application, try to introduce it into the field of medicine to explore its curative effect on diseases, hoping to benefit patients. Also think about the expansion of material science, hoping to show its unique properties.
We have made unremitting efforts to make contributions to the research and development of 3,5 - Diiodo - N - Acetyl - L - Tyrodine and contribute to the prosperity of science.

Toxicity Research

Study on the toxicity of 3,5-diiodine-N-acetyl-L-tyrosine
The toxicity of 3,5-diiodine-N-acetyl-L-tyrosine has become more and more serious recently. The chemical structure of this substance is unique and often involved in the field of biochemistry.
The toxicity of this substance is now studied, which is related to the health of living beings. Take all animals as a test and observe their reactions. Feed at different doses to observe their physical signs and physiological changes.
Observation, at high doses, the test animals have a state of fatigue, and their diet may be impaired. And the biochemical indicators are also different, and the functions of liver and kidney seem to be disturbed. It may cause the accumulation of toxins and damage to the organs due to metabolic obstruction.
However, at low doses, although the appearance is not obvious, the metabolism of cells and the expression of genes have slightly changed at the microscopic level. This may be a hidden worry, long-term accumulation or serious disease.
In summary, the toxicity of 3,5-diiodine-N-acetyl-L-tyrosine should not be underestimated. In the future, we should investigate the opportunity in depth to prevent and protect the public from danger.

Future Prospects

Husband 3,5 - Diiodo - N - Acetyl - L - Tyrodine is also a thing of transformation. I am currently studying it, and the prospect of its future can be thought deeply.
This thing may be of great use in the field of development. It can assist in the research of new and common diseases, hoping to solve the suffering of life. And the cornerstone of its research or biologicalization, the field of development, and the unknown.
However, it still needs to be worked hard to achieve its future macros. Researchers need to study its nature, solve its secrets, and break down many problems. Looking forward to the future, this thing of transformation will be able to show great brilliance, and it will be used in the forest of transformation, immortal work, and it will be undeveloped, adding a new chapter, so that everyone can benefit from it.

Historical Development

3,5-Diiodine-N-acetyl-L-tyrosine, its origin has been around for a long time. Back to its inception, Zhu Xian dedicated himself to the field of pharmacy. At the beginning, the cognition was still shallow, only slightly touching its appearance. However, the public worked tirelessly over the years, and the research deepened.
Early experiments were mostly limited by simple methods, and the conclusions were sometimes biased. However, everyone was not discouraged and continued to explore. At some point, the technology gradually refined, and the understanding of its structure and characteristics became clearer. After repeated trials, it was known that it had extraordinary effects on medicine.
From ignorance to insight, from mistake to precision, the development of 3,5-diiodine-N-acetyl-L-tyrosine is the result of the efforts of researchers, and it is also a brilliant chapter in the evolution of pharmacy. It has far-reaching impact on the development of medicine in later generations.

Product Overview

3,5-Diiodo-N-Acetyl-L-Tyrodine (3,5-Diiodo-N-Acetyl-L-Tyrodine) is a unique compound. Its shape or powder, pure color and uniform quality. Looking at its structure, it is exquisite and unique, containing carbon, hydrogen, oxygen, nitrogen, and iodine elements, which are connected by specific bonds to form this complex and orderly shape.
This compound is of great significance in the field of biochemical research. In the study of thyroxine synthesis, it is often a key player. It can simulate the role of related substances in physiological processes, help us understand the mystery of thyroxine synthesis, and understand the operating mechanism of the body in this key metabolic link. And its properties are stable, and under experimental conditions, it can be precisely controlled, providing a powerful tool for researchers to explore endocrine-related physiological and pathological mechanisms.

Physical & Chemical Properties

Today there is a thing called 3,5 - Diiodo - N - Acetyl - L - Tyrodine. Looking at its physical properties, at room temperature, it may be in a solid state, with a pure color, like frost and snow. The texture is delicate and the tentacles are warm. Its melting point and boiling point have specific numbers, which are key characteristics of physical properties.
In terms of its chemical properties, in its structure, functional groups interact, and it coexists actively and stably. In case of a specific reagent, or a wonderful reaction occurs, the chemical bonds are broken and recombined, and the chemical changes are deduced. It can be neutralized with a base, or it can be phased with an acid, all because of its inherent chemical properties. In the field of organic synthesis, this substance may be a key raw material, participating in complex reaction paths and shaping diverse products. Its physicochemical properties are like a code, which awaits our chemistry students to study in detail to explore the wonders of science and the true meaning of material change.

Technical Specifications & Labeling

For 3,5-diiodine-N-acetyl-L-tyrosine, the preparation method and identification (commodity parameters) are essential. The method is to take an appropriate amount of L-tyrosine, dissolve it in a suitable solvent, control the temperature, and slowly add iodide and acetylation reagents. During the process, pay attention to the process of the reaction, and measure its pH in time to ensure a smooth reaction. After the reaction is completed, the product is obtained through separation and purification.
Its identification is related to commodity parameters. Looking at its color, it should be white-like; its purity should be measured to a very high standard; its melting point should also be tested within a specific range. In addition, on the packaging, when the chemical name, molecular formula, molecular weight and other key parameters are stated, so that the user can understand and comply with the specifications of chemical products to ensure quality and safety.

Preparation Method

The product of 3,5 - Diiodo - N - Acetyl - L - Tyrodine is made today, and the raw materials are discussed first. L - tyrosine needs to be prepared, which is the root, and the pure one is preferred. Iodine sources are also required, such as potassium iodide, iodine elemental substances, etc., to assist in the iodization step. Acetylation reagent, acetic anhydride is appropriate, and its activity is suitable for this substance.
The process of preparation, first dissolve L - tyrosine in a suitable solvent, such as alcohol or water-alcohol mixture, adjust the pH to suit. Add iodine source, temperature control reaction, promote iodine substitution, observe color change or use instrument to measure, until the reaction is sufficient. Then add acetic anhydride, adjust the conditions to make acetylation. After the reaction is completed, the temperature is lowered, the product is precipitated, filtered, washed, and dried to obtain a crude product.
When refining, select the appropriate solvent for recrystallization, and remove the impurity for purification. Temperature control, speed and other conditions, obtain high purity 3,5 - Diiodo - N - Acetyl - L - Tyrodine. A monitoring mechanism should be set up in the process, and the product should be checked at each step. If it does not match, the conditions will be adjusted to ensure constant quality. Follow this method to get a good product.

Chemical Reactions & Modifications

Taste the wonders of chemistry, it is related to the change of all things. Today there is 3,5 - Diiodo - N - Acetyl - L - Tyrodine. Its chemical reaction and modification are quite fascinating.
The chemical reaction of the husband, such as the symmetry of yin and yang, changes without reason. 3,5 - Diiodo - N - Acetyl - L - Tyrodine in a specific environment, interacts with various things, or biochemically synthesizes. The clutching of its atoms and the ease of valence bonds all obey the laws of chemistry.
As for modification, it is like carving beautiful jade, turning decay into magic. With clever methods, it may change its physical properties and increase its effectiveness. Or modify its structure to suit different needs. If you can make good use of the principles of chemistry, observe the micro-reactions of its reactions, and explore the path of its modification, then 3,5 - Diiodo - N - Acetyl - L - Tyrodine will be able to be used in the fields of medicine and materials to develop its extraordinary uses and benefit the world.

Synonyms & Product Names

3,5-Diiodo-N-Acetyl-L-Tyrodine (3,5-Diiodo-N-Acetyl-L-Tyrodine), in the field of medical research, its name is gradually emerging. The alias of this substance is also important to researchers.
Look at its synonym, or "acetyl-diiodine tyrosine", this name takes the main structure of its structure, and its group is represented by "acetyl", "diiodine" shows the number of iodine atoms, and "tyrosine" shows its root, and it is also heard from time to time in the academic world.
As for the trade name, it is sometimes marked with "excellent iodine cheese B" in the market. The name is simple and clear, and it is easy for the industry and users to remember. However, regardless of the alias or trade name, it refers to this key substance. Its research and development in medicine or thyroid-related research is expected to pave the way for health, paving the way and leading to new territory.

Safety & Operational Standards

3,5-Diiodo-N-Acetyl-L-Tyrodine (3,5-Diiodo-N-Acetyl-L-Tyrodine) is a chemical under our research. The safety and operating practices of this substance are of paramount importance, as detailed below.
In terms of safety, the first protection is required. This substance may have certain chemical activity. When touching, appropriate protective equipment must be worn. If you cover your hands with special gloves to avoid skin contact, it may cause skin discomfort or even damage. Eye protection is also indispensable. Wear professional goggles to prevent this substance from accidentally splashing into the eyes and damaging the eyes.
Furthermore, the operating environment must be well ventilated. Because chemical substances may emit gas during operation, if the air does not circulate, the gas will accumulate, or cause health risks. Therefore, the laboratory should set up an effective ventilation system to expel harmful gases in time.
When talking about the operation specifications, when using this substance, it must be measured with a precise measuring tool. Because of the amount of dosage, or affecting the experimental results, it is also related to the success or failure of subsequent reactions. During the operation, the action should be stable and accurate, and beware of spilling. If it is accidentally spilled, it should be cleaned up according to the established procedures and should not be disposed of at will.
After the experiment is completed, properly store the remaining products. It should be placed in a specific container, and the appropriate storage conditions should be selected according to its chemical properties, or low temperature, or dry, to ensure its stability and avoid deterioration and subsequent use problems. Strictly abide by this safety and operation code to ensure the smooth operation of the experiment and the safety of personnel.

Application Area

3,5-Diiodo-N-Acetyl-L-Tyrodine (3,5-Diiodo-N-Acetyl-L-Tyrodine) is very useful in the field of medicine. It can be involved in the synthesis of thyroid hormones and is related to the regulation of human metabolism. When doctors explore endocrine diseases, this substance is often a key target.
In traditional medicine, although this substance is not directly described, the principle of human yin and yang balance and qi and blood regulation may have a hidden connection with today's hormone regulation. Today's researchers, based on the ancient thinking, have in-depth explored the application of 3,5-diiodine-N-acetyl-L-tyrosine in the treatment of endocrine diseases. It may be made into a drug to correct hormone imbalance and help patients return to health. It is also expected that in the future, according to its characteristics, new therapies will be developed, contributing to the development of medical medicine.

Research & Development

Taste the wonders of medicine, is related to the health of people's livelihood. Today there is a thing, named 3,5 - Diiodo - N - Acetyl - L - Tyrodine, which is quite important in medical research.
We have studied it for the first time to observe its properties and explore its principles. The properties of this thing are related to biochemical changes, and we have tried many times to understand its role in the human body.
First look at its structure, which is fine and subtle, and the structure is different, and the effect is also special. In order to understand its principles, set up various experiments to observe its response to other things. Observe its effect on cells, or promote growth, or inhibit lesions.
And explore the way of its application in pharmaceutical research and development, hoping to achieve success. Or as a cure for diseases, or as a health care agent. However, the road of research and development is full of thorns, and we need to study unremitting, hoping to make breakthroughs and benefit the common people. This is the vision of our research on this thing, and we will make unremitting efforts to seek development.

Toxicity Research

The study of taste and smell of material properties is related to the health of people's livelihood, and the rise and fall of the world. Today, when it comes to 3,5 - Diiodo - N - Acetyl - L - Tyrodine, the study of its toxicity is urgent.
Observe the experience of all kinds of poisons in the past, and examine their properties, their uses, and their harms in detail. 3,5 - Diiodo - N - Acetyl - L - Tyrodine, or involved in the field of medicine and biochemistry, but the observation of toxicity should not be ignored.
To understand its poison, we should first investigate its chemical properties, explore its response between objects, and observe the changes caused by its entry into the body. Observe whether it damages the viscera, messes up qi and blood, and obstructs the meridians and collaterals. And it is necessary to test it in all things, from insects to livestock, and record the symptoms in detail, such as differences in behavior and changes in physical health.
The study of toxicity is not a temporary effort. It must be accumulated in a few steps, over time, and in detail, in order to obtain its true meaning, so as to avoid its harm, make good use of it, and benefit the world.

Future Prospects

In the future world, science and technology will thrive. In 3,5 - Diiodo - N - Acetyl - L - Tyrodine, our chemical researchers are full of hope. In the field of medicine, it may shine brightly, help heal diseases, and solve the suffering of everyone. If you can precisely control its properties and make good use of its quality, or you can make special drugs to cure intractable diseases. In material science, it may also have the opportunity to innovate, making materials have outstanding properties and opening up new frontiers. When your skills are advanced and your analysis is nuanced, you will be able to fully develop its potential. At that time, this chemical product will surely make immeasurable contributions to human well-being. We should study it diligently to meet this grand scene.

Where to Buy 3,5-Diiodo-N-Acetyl-L-Tyrodine in China?

As a trusted 3,5-Diiodo-N-Acetyl-L-Tyrodine 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 3,5-Diiodo-N-Acetyl-L-Tyrodine supplier, we deliver high-quality products across diverse grades to meet evolving needs, empowering global customers with safe, efficient, and compliant chemical solutions.

What are the main uses of 3,5-diiodol-N-acetyl-L-tyrosine?

3,5-Dibromo-N-ethylbenzyl-L-glutamic acid, this substance has a wide range of uses. In the field of medicine, it is a key intermediate, and the synthesis of many drugs needs to be based on it. For example, when developing drugs for the treatment of certain neurological diseases, with its special structure, it can participate in the construction of active ingredients of drugs, help drugs act more accurately on targets, and then improve curative effect.
In the chemical industry, it can be used as a synthetic raw material for special polymer materials. Due to its unique chemical properties, it can endow polymer materials with excellent properties such as better stability and flexibility. Taking the preparation of high-end engineering plastics as an example, the addition of this substance can optimize the mechanical properties and chemical resistance of plastics, so that it can be applied in aerospace, automobile manufacturing and other fields that require strict material properties.
In agriculture, it may be able to participate in the creation of new pesticides. After rational design and modification, green pesticides that have high-efficiency killing effect on specific pests and have little impact on the environment and non-target organisms can be developed, thus contributing to the sustainable development of agriculture. In short, 3,5-dibromo-N-ethylbenzyl-L-glutamic acid plays an indispensable role in many important fields and is of great significance in promoting technological progress in various industries.

What are the chemical properties of 3,5-diiodol-N-acetyl-L-tyrosine?

3,5-Dichloro-N-ethylbenzyl-L-glutamic acid is an organic compound. Its chemical properties are unique, let me tell you one by one.
In this compound, the presence of chlorine atoms gives it a specific reactivity. Chlorine atoms are electron-absorbing, which can reduce the electron cloud density of the carbon atoms connected to them. As a result, in nucleophilic substitution reactions, this carbon atom is vulnerable to attack by nucleophiles. For example, in the case of nucleophiles such as hydroxyl anions, chlorine atoms may be replaced, and new compounds can be derived.
The group N-ethylbenzyl adds a unique spatial structure and electronic effects to the molecule. The conjugated system of the benzyl ring in benzyl group will affect the distribution of the electron cloud of the nitrogen atom connected to it, changing the alkalinity of the nitrogen atom. The introduction of ethyl group increases the lipid solubility of the molecule, which affects its solubility in different solvents. Generally speaking, compounds containing such alkyl structures have better solubility in organic solvents such as ethanol and ether than in water.
L-glutamic acid part, with carboxyl and amino groups. The carboxyl group is acidic, and under suitable conditions it can undergo acid-base neutralization and reaction with the base to form a corresponding carboxylate. The amino group is basic and can react with acids to form salts. In addition, carboxyl and amino groups can also participate in condensation reactions, such as dehydration and condensation with other compounds containing carboxyl or amino groups to form peptide bonds or amide bonds, which is of great significance for the construction of complex macromolecular structures.
In addition, the presence of chiral centers of the compound, that is, the L-configuration, determines its stereoselectivity in certain biological activities and chemical reactions. In organisms, only one of the configurations of chiral compounds can precisely bind to specific biological macromolecules (such as enzymes and receptors), triggering corresponding biological effects. In chemical reactions such as asymmetric synthesis, chiral centers also affect the reaction process and product configuration.

What is the production method of 3,5-diiodol-N-acetyl-L-tyrosine?

The preparation method of 3,5-dichloro-N-ethylaniline-L-alanine is an exquisite chemical process. The method is as follows:
First take an appropriate amount of starting material, which needs to be carefully screened to ensure purity and quality. With a specific instrument, carefully selected starting reactants are slowly poured into the reactor in precise proportions. The environment in the kettle needs to be strictly controlled. Temperature and pressure are key elements and need to be maintained within a specific numerical range.
Then add an appropriate amount of catalyst. This catalyst is like a magic key that can open the door to chemical reactions and accelerate the reaction process. However, the amount of the catalyst needs to be carefully considered. If it is too much, it will be too much, and if it is too little, the effect will be difficult to show. After adding the catalyst, stir slowly to fully blend the reactants and the catalyst and mix them evenly.
During the reaction, closely monitor the reaction process. Use professional instruments to observe the fluctuation of temperature and the change of the concentration of the reactants, and fine-tune the reaction conditions in a timely manner according to the obtained data. When the reaction reaches a predetermined level, that is, the expected end point of the reaction is reached, and the product is beginning to take shape.
However, this product needs to be further purified. By distillation, extraction and other methods, impurities are removed and the product During distillation, precise temperature control allows the target product to be separated according to its boiling point characteristics; in the process of extraction, a suitable extractant is selected to skillfully extract the product from the mixed system.
After these steps, a high-purity 3,5-dichloro-N-ethylaniline-L-alanine can be obtained. This preparation method requires fine operation in each step, and there is no room for any error. Only satisfactory results can be obtained, which makes this a masterpiece of chemical synthesis.

What are the precautions for 3,5-diiodol-N-acetyl-L-tyrosine in storage and transportation?

3,5-Dibromo-N-ethylcarbazolyl-L-glutamic acid, when storing and transporting, pay attention to many matters.
First, this material may have an impact on the environment, so when storing, choose a suitable place to prevent leakage and environmental pollution. During transportation, it is also necessary to properly protect it from outflow and harming the surrounding environment.
Second, its chemical properties are very critical. 3,5-Dibromo-N-ethylcarbazolyl-L-glutamic acid has specific chemical activity, and it should be stored away from high temperature, open flame and strong oxidants. High temperature can cause its reaction to intensify, or even cause danger; open flame or ignite this thing, causing fire; strong oxidants come into contact with it, or react violently, endangering safety. During transportation, it is also necessary to strictly observe temperature and environmental conditions to prevent it from changing due to environmental changes.
Third, the packaging must be firm. When storing, the packaging must be able to effectively prevent moisture and oxidation. Humid air or reactions such as hydrolysis affect quality; oxidation will also damage its chemical structure and performance. During transportation, the packaging must withstand bumps and collisions to ensure that it is intact during transportation, does not leak or break.
Fourth, the logo must be clear. The name, nature, hazard characteristics and emergency treatment methods should be clearly marked on the storage place and the means of transportation. In this way, the relevant personnel can see at a glance that in the event of an emergency, they can respond quickly and correctly to reduce the harm.
All of these, the storage and transportation of 3,5-dibromo-N-ethylcarbazolyl-L-glutamic acid is essential and must not be ignored.

What is the market price range for 3,5-diiodol-N-acetyl-L-tyrosine?

I do not know the current market of 3% 2C5-dichloro-N-ethylbenzyl-L-phenylalanine. The market often fluctuates due to various factors, such as differences in land, the availability of raw materials is easy, and there may be problems due to it; and if there is a shortage of supply and demand, if there is a shortage of supply, it must be suppressed, and vice versa. Furthermore, the method of manufacturing, the quality of the product is also different.
If you want to know the market, it is not the market, it is not the material industry, chemical raw material suppliers, or the market of the trading platform. Or it is the company of the party, they often do business in the past, and they have much insight into the market, which can be guided.