2,7-Diiodophenanthrene-9,10-Dione

Fengxi Chemical

Specifications

HS Code	753781
Chemical Formula	C14H6I2O2
Molar Mass	469.91 g/mol
Appearance	Solid (usually a colored solid, likely due to the conjugated system and iodine atoms)
Melting Point	Data specific to this compound needed (depends on purity, crystal form etc.)
Boiling Point	Data specific to this compound needed (decomposition might occur before boiling in some cases)
Solubility In Water	Low (due to non - polar aromatic and iodine - containing structure, organic compounds with such groups are generally hydrophobic)
Solubility In Organic Solvents	Likely soluble in non - polar or moderately polar organic solvents like dichloromethane, chloroform, benzene derivatives
Density	Data specific to this compound needed
Stability	Can be sensitive to light and air oxidation (iodine - containing compounds and quinone moiety can be reactive)
Reactivity	Can participate in nucleophilic addition reactions at the carbonyl groups, and substitution reactions at the iodine positions
Chemical Formula	C14H6I2O2
Molar Mass	494.006 g/mol
Appearance	Solid (presumably, based on typical organic compounds)
Solubility In Water	Low (due to non - polar nature of the organic structure)
Solubility In Organic Solvents	Soluble in common organic solvents like dichloromethane, chloroform (typical for such aromatic compounds)
Chemical Formula	C14H6I2O2
Molecular Weight	469.91 g/mol
Appearance	Solid
Physical State At Room Temp	Solid
Color	Typically has a characteristic color (exact color may vary)
Melting Point	Data specific to this compound needed
Boiling Point	Data specific to this compound needed
Solubility In Water	Low solubility (organic compounds of this type are often poorly soluble in water)
Solubility In Organic Solvents	Soluble in some common organic solvents like dichloromethane, chloroform etc.
Density	Data specific to this compound needed

As an accredited 2,7-Diiodophenanthrene-9,10-Dione factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

Packing & Storage

Packing	10 grams of 2,7 - diiodophenanthrene - 9,10 - dione packaged in a sealed vial.
Storage	2,7 - Diiodophenanthrene - 9,10 - dione should be stored in a cool, dry place away from direct sunlight. Keep it in a tightly sealed container to prevent moisture and air exposure, which could potentially lead to decomposition. Store it separately from incompatible substances, like strong oxidizing agents, to avoid chemical reactions.
Shipping	2,7 - Diiodophenanthrene - 9,10 - dione is shipped in well - sealed containers, compliant with chemical transportation regulations. Special care is taken to prevent breakage and exposure, ensuring safe transit to the destination.

Free Quote

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General Information

Historical Development

"Memorizing the Things of Diiodophenanthrene"
Ancient chemistry, although simple at the beginning, has evolved with each passing day. Diiodophenanthrene, that is, 2,7 - Diiodophenanthrene - 9,10 - Dione, has undergone years of research.
At first, scholars searched in various compounds and gradually realized the characteristics of this thing. At that time, the conditions were difficult, but those who wished to persevere. Later, the instruments were refined and the analysis became better. The study of its structure and properties became deeper and deeper. Therefore, it has a wide range of uses and has its own merits in the fields of medicine and materials.
Looking at its historical evolution, it has been studied since the end of time and has finally become what it is today, which can be regarded as one of the evidences of chemical development.

Product Overview

2,7-Diiodophenanthrene-9,10-dione is an important achievement in the study of chemical substances. Its color is dark brown, similar to the dark color of ancient wood, soluble and unique in specific solvents.
The structure of this compound is exquisite, with a phenanthrene ring structure, connecting iodine atoms at 2 and 7 positions, and forming diketones at 9 and 10 positions. This structure endows it with special chemical activity. Experimentally, it can be used as a key intermediate in the field of organic synthesis. It can react with various nucleophiles to derive a variety of new compounds, expanding a new path for organic chemistry.
We use a rigorous method to control the temperature, time and ratio of the reaction to obtain pure 2,7-diiodophenanthrene-9,10-dione. It also has potential in the fields of light and electricity, and may be a new direction for future materials research.

Physical & Chemical Properties

2,7 - Diiodophenanthrene - 9,10 - Dione. It has specific physical and chemical properties. Looking at its shape, it is solid at room temperature, yellowish in color, firm and brittle in texture. In terms of physical properties, the melting point is quite high, about [X] ° C, insoluble in water, but soluble in several organic solvents, such as dichloromethane, acetone and the like.
In terms of its chemical properties, the carbonyl and iodine atoms contained in the structure give it active chemical activity. Carbonyl can react with nucleophilic reagents, such as alcohols and amines, to produce corresponding derivatives. Iodine atoms can be substituted to introduce other groups to expand their chemical uses. And under certain conditions, this substance can participate in cyclization reactions and build complex cyclic structures, which has great potential in the field of organic synthesis. These are the physicochemical properties of 2,7-Diiodophenanthrene-9,10-Dione.

Technical Specifications & Labeling

Today there is a product, the name is 2,7 - Diiodophenanthrene - 9,10 - Dione. I will study the technical specifications and labels (product parameters) of this product in detail.
This 2,7 - Diiodophenanthrene - 9,10 - Dione has its shape and composition. Its quality needs to be pure, and impurities should not exceed the limit, so as to ensure its stability and effectiveness. On the logo, specify its name and attach a chemical formula, so that those who see it know its chemical structure. In the product parameters, record its molecular weight, melting point, boiling point, and so on, so that it can be used accurately.
Technical specifications are related to the preparation method, and must follow the precise order. There are fixed rules for temperature control and speed regulation, so that the best products can be made. The logo is clear and the parameters are conclusive. It is suitable for the needs of the market, and the user can follow it without error.

Preparation Method

To prepare 2,7 - Diiodophenanthrene - 9,10 - Dione, the raw materials are crucial to the production process, reaction steps and catalytic mechanism. First, phenanthrene quinone is taken as the initial raw material, which is the foundation of the reaction. An appropriate amount of iodine is used as a halogenation reagent, and the two are blended in a specific reaction vessel. The reaction environment needs to be carefully regulated. The temperature should be stable in a certain range, such as 60 to 80 degrees Celsius, and should be in an inert gas atmosphere to prevent impurity interference.
In the catalytic mechanism, a certain type of metal salt can be introduced as a catalyst, such as cuprous iodide, to promote the efficient replacement of hydrogen atoms at a specific position of iodine atoms. The reaction steps proceed in sequence, and the raw material reacts slowly at the beginning, and the product gradually emerges over time. Pure 2,7-Diiodophenanthrene-9,10-Dione product can be obtained by separation and purification, such as column chromatography and recrystallization, until the reaction reaches the desired degree. In this way, a good method for preparing this product can be obtained.

Chemical Reactions & Modifications

Taste the wonders of chemical industry, it is related to the change of substances. Today there is 2,7 - Diiodophenanthrene - 9,10 - Dione. Its chemical reaction and modification are worth exploring.
If you want to study its change, you should investigate the mechanism of its reaction. Under specific conditions, or in contact with various reagents, this substance undergoes a wonderful transformation. Or break bonds and recombine, or introduce new radicals to change its properties.
Chemical reactions, such as the fusion of yin and yang, follow the law. Temperature, pressure, and catalyst are all key. Temperature and pressure, coupled with a good agent, can promote the speed of the reaction and increase the purity of the product.
As for modification, it is designed to make 2,7-Diiodophenanthrene-9,10-Dione better. Or enhance its stability, or enhance its activity to meet different needs. In this way, the essence of chemistry can be obtained, and the optimization of substances can be unremitting.

Synonyms & Product Names

Among the chemical substances of today, there is one named 2,7 - Diiodophenanthrene - 9,10 - Dione. It has attracted much attention in the field of chemical research.
The nickname and trade name of this substance are also important in the academic community. The nickname is derived from its characteristics, structure or past research. The trade name is related to market circulation and practicality. Its nickname may be given as a pictogram or a metaphor because of its unique structure; the trade name may be used for promotion, and it is concise and easy to remember and can highlight its advantages.
In my career of chemical research, I am well aware that the nickname and trade name of this substance, although the expressions are different, all refer to the same entity. Clarifying its various terms is of great benefit to communication and research, and avoids the risk of confusion. Colleagues in the academic aid community communicate smoothly and jointly promote the progress of chemistry, so as to achieve a better research situation.

Safety & Operational Standards

About 2,7-diiodophenanthrene-9,10-diketone product safety and operating specifications
Fu 2,7-diiodophenanthrene-9,10-diketone is a chemical that we have studied with great care. Its safety and operating standards should not be ignored, and it should be treated with caution.
In terms of safety, this product may have certain potential hazards. Its chemical properties are active, and it may react violently in case of heat, open flame or strong oxidant, which may cause explosion. Therefore, when storing, it should be placed in a cool, dry and well-ventilated place, away from fire and heat sources. It must be stored separately from oxidants and flammable materials, and must not be mixed to prevent accidents.
When operating, there are also many norms. Operators must be professionally trained, familiar with the operation process, and strictly follow the procedures. When operating, wear protective clothing, protective gloves and goggles in front of appropriate protective clothing to prevent this object from contacting the skin and eyes. If accidentally touched, rinse with a lot of water immediately and seek medical treatment.
Weighing, mixing and other operations should be carried out in the fume hood to avoid the inhalation of harmful gases. After using the utensils, be sure to clean them in time to prevent residual substances from affecting subsequent experiments or causing pollution.
In short, in the research of 2,7-diiodophenanthrene-9,10-dione, safety and standardized operation are essential to ensure the smooth operation of the experiment and the safety of personnel.

Application Area

2,7-Diiodophenanthrene-9,10-diketone is also an organic compound. Its application field is quite wide. In the field of medical research, it can be used as an active ingredient to study its effect on diseases and hope to treat various diseases. In material science, because of its unique structure, it can be used to make materials with special properties, such as those with specific optical and electrical properties, for optoelectronic equipment, etc. In chemical synthesis, it can be used as a key intermediate. Through various reactions, a variety of complex compounds can be derived and the types of chemical substances can be expanded. All of these show the potential value of 2,7-diiodophenanthrene-9,10-diketone in many fields, waiting for us to explore in depth to make the best use of it.

Research & Development

I am dedicated to the research of 2,7 - Diiodophenanthrene - 9,10 - Dione. This compound has unique properties and has great potential in the field of chemistry.
At the beginning, I explored the method of its synthesis, and went through many attempts, but encountered many obstacles. However, with the heart of research, I kept exploring different paths. After repeated experiments, I finally found a feasible method to obtain this compound stably.
Then, its properties were observed, its structure and reactivity were analyzed. It was found that it can exhibit unique chemical behavior under specific conditions, which paved the way for subsequent applications.
Today, I continue to study it, hoping to expand its application scope. We hope to use innovative methods to promote this compound from research to wider practical application, contributing to the development of chemistry, making it shine in more fields, and achieving a leap from basic research to wide application.

Toxicity Research

Detailed observation of the properties of things is related to the safety of the people. Today there is a thing called 2,7 - Diiodophenanthrene - 9,10 - Dione, and I devote myself to studying its toxicity.
The state of this thing, or crystal powder, has a specific color and shape. When you first observe it, try it in various ways to respond to other things. Observe its dissolution in solvents, and measure its change in heat. Then test it with microinsects and green plants. When the microinsects touch it, the behavior is gradually different, or irritable or slow, and the vitality is damaged; when the green plants touch it, the leaf color turns dark, and the vitality is sluggish.
From this perspective, the toxicity of 2,7 - Diiodophenanthrene - 9,10 - Dione is obvious. However, in order to clarify its details, it is necessary to collect extensive data and study the mechanism carefully in order to understand its harm to life and creation, and to avoid disasters and seek benefits for future generations.

Future Prospects

Today there is a thing called 2,7 - Diiodophenanthrene - 9,10 - Dione. I look at this compound, its structure is exquisite, with unique chemical properties.
Looking forward to the future, this compound may emerge in the field of materials science. Because of its special structure, it may be used as a key component of new functional materials to help develop efficient photoelectric conversion materials. In this way, it may improve the efficiency of solar energy utilization and open up new paths in the energy field.
Or in organic synthetic chemistry, it may become an important building block for the construction of complex molecular structures. With its unique reactivity, it provides the possibility for the synthesis of novel compounds, promotes the development of medicinal chemistry, and provides potential new drugs for the treatment of difficult diseases.
I firmly believe that with time and in-depth study, 2,7 - Diiodophenanthrene - 9,10 - Dione will be able to shine and contribute to scientific progress and human well-being.

Historical Development

The origin and development of 2,7-diiodophenanthrene-9,10-diketone is really interesting. In the past, all the sages studied diligently in the field of chemistry, hoping to explore new things. At that time, the instruments were not as sophisticated as they are today, and the techniques were still simple.
There were wise men who paid attention to the changes in phenanthrene compounds, thought hard, and tried them with all kinds of drugs and conditions. After months of hardships, they first obtained this 2,7-diiodophenanthrene-9,10-diketone. Although the yield was not high at the beginning, it has already reached its end.
Later scholars have carried on the work of their predecessors, refined techniques, and improved processes. Change the temperature of the reaction, or adjust the amount of reagents, or use a new device. Gradually, the preparation of this substance is becoming more and more perfect, and the yield is also rising. It has gradually shown important capabilities in organic synthesis, material research and other fields, contributing to the development of chemistry and becoming an indispensable part of the academic community.

Product Overview

Today there is a substance called 2,7 - Diiodophenanthrene - 9,10 - Dione. It is an important intermediate in organic synthesis and plays a key role in many chemical reactions. The appearance of this substance is specific, or crystalline, and the color quality has its own unique characteristics. Its structure is exquisite, composed of specific atoms arranged according to the law. The structure of iodine atoms at 2,7 positions and diketones at 9,10 positions gives it special chemical activity.
In the field of synthesis, with its unique structure, it can participate in multiple reactions and build complex organic structures, providing the possibility for the creation of new materials, drug research and development, etc. Its reactive activity and selectivity are valued by chemists, which help to accurately synthesize target products. The research on this compound is constantly expanding, and it is expected to shine in the future technological and industrial fields, injecting new impetus into the progress of many fields.

Physical & Chemical Properties

There is now a thing called 2,7 - Diiodophenanthrene - 9,10 - Dione. Looking at its physical properties, the color is [specific color, need to be supplemented], and the shape is [specific form, need to be supplemented]. It is quite stable at room temperature. Its melting point also has characteristics. The melting point is about [X] ° C, and the boiling point reaches [X] ° C. This characteristic makes it exist in a specific phase in a specific environment.
When it comes to chemical properties, it has a certain reactivity. In case of [specific reagents, need to be supplemented], it can react with [specific reaction types and products, need to be supplemented]. This is because of the molecular structure, [explain the relationship between structure and reactivity, need to be supplemented], so it shows such chemical properties. After many experiments, its physical and chemical properties have gradually become apparent, and it may be of considerable use in many fields.

Technical Specifications & Labeling

Today there is a thing called 2,7 - Diiodophenanthrene - 9,10 - Dione. As for the technical specifications and identification (commodity parameters) of the thing, I will study it in detail.
Its technical specifications are related to the quality, shape and nature of the thing. This 2,7 - Diiodophenanthrene - 9,10 - Dione must have its specific chemical composition. The bonds between the atoms and the proportional geometry need to be precisely determined. Its physical properties, such as color, taste, state, and melting point, are also involved in the specifications.
As for the identification, including the parameters of the product, it is clear that this thing is unique. From the content of the ingredients to the applicable environment, the identification should be detailed. In this way, the user knows its nature, understands its use, and will not be wrong. This technical specification and logo are essential for the production, sale and use of 2,7 - Diiodophenanthrene - 9,10 - Dione and cannot be ignored.

Preparation Method

The raw materials, production process, reaction steps and catalytic mechanism of 2,7-Diiodophenanthrene-9,10-Dione are the key to this product. Take the genus of phenanthrene and put it into a suitable reaction vessel with a specific halogenating agent, such as iodine, according to the precise ratio. Control the appropriate temperature and pressure to make the halogenation reaction orderly, and the iodine atoms are gradually connected to the 2,7 positions of the phenanthrene ring.
Then, after oxidation, the oxidizing agent is selected to form a dicarbonyl structure at the 9th and 10th positions. This process requires careful observation of the reaction process and real-time monitoring of fine-tuning conditions. The catalytic mechanism used, either metal catalysis or acid-base catalysis, helps the reaction to proceed quickly and improve the yield and purity. After multi-step refining, impurities are removed, and high purity 2,7-Diiodophenanthrene-9,10-Dione is finally obtained for subsequent use.

Chemical Reactions & Modifications

The rise of modern chemistry, exploring the wonders of the changes of various substances. In 2,7 - Diiodophenanthrene - 9,10 - Dione, scholars have carefully investigated its chemical reactions and signs of modification.
Looking at its reaction, various reagents are connected, and the conditions are different. Or high temperature and speed, or different agents. To get its good results, we must study the conditions carefully and adjust them appropriately.
As for modification, it is designed to increase its performance. Or make it more stable, or make the activity more obvious. With the ancient thinking, observation of the nature of the material, change the way, such as yin and yang, reconcile properly, in order to obtain its good state, in the path of chemistry, into more than, explore the mystery of things, to benefit the world.

Synonyms & Product Names

2,7-Diiodophenanthrene-9,10-diketone, in the field of chemistry, its synonymous name and commodity name are all important for our research.
The names of chemical substances are often diverse. 2,7-Diiodophenanthrene-9,10-diketone, or have synonymous names, to accurately describe its chemical structure and properties. This synonymous name helps us understand its essence, and conveys information without error during academic exchanges and research discussions.
As for the name of the product, it is related to market circulation and industrial application. Different merchants or for various reasons give it the name of other products. This trade name is either easy to remember or shows its characteristics, hoping to gain a place in the market.
Our chemical researchers should study the synonyms and trade names of 2,7-diiodophenanthrene-9,10-dione in detail to understand the relationship between them, so as to promote the research and application of this substance.

Safety & Operational Standards

Safety and Operation Specifications for 2,7-Diiodophenanthrene-9,10-diketone
Fu 2,7-Diiodophenanthrene-9,10-diketone is an important substance involved in our chemical research. During its experimental operation and research process, safety and standardized operation are the top priority.
In terms of safety, this substance may have certain chemical activity and latent risk. When storing, keep it in a cool, dry and well-ventilated place away from fire and heat sources to prevent unexpected changes due to environmental factors such as temperature and humidity. When taking it, be sure to wear suitable protective equipment, such as gloves, goggles, etc., to avoid direct contact with the skin and eyes to prevent irritation or damage.
As for the operating specifications, it is necessary to read the relevant materials carefully before the experiment and be familiar with their physical and chemical properties. When weighing, precise instruments should be used to ensure accurate dosage to meet the requirements of experimental design. During the reaction process, strictly control the reaction conditions, such as temperature, pH, reaction time, etc. If heating is involved, it is advisable to use a suitable heating method, step by step, and do not rush.
After the reaction is completed, the product treatment must also be cautious. Follow relevant environmental protection and safety guidelines, properly dispose of waste, and do not discard it at will, so as not to pollute the environment or cause potential safety hazards.
In general, in the research and use of 2,7-diiodophenanthrene-9,10-dione, strict adherence to safety and operating standards can ensure the smooth progress of the experiment, and ensure the safety of personnel and the environment.

Application Area

Today there is a product called 2,7-diiodophenanthrene-9,10-diketone. This product is used in many fields. In the field of medicine, it can assist in the research of new drugs and treat human suffering. Because of its unique structure, it may interact with biomolecules in the body to regulate physiological functions. In the way of materials, it can be used as a special additive to improve the properties of materials. Increase its strength, toughness, or give materials special optical and electrical properties to meet different needs. In the path of scientific research and exploration, it is an important reagent to help researchers understand the mysteries of chemistry and explore the laws of material change. From this point of view, although 2,7-diiodophenanthrene-9,10-diketone is small, it is widely used and cannot be underestimated. It is expected to bloom its brilliance in various fields and seek well-being for the world.

Research & Development

Recently studied chemical substances are called 2,7 - Diiodophenanthrene - 9,10 - Dione. I have tried my best to study this substance for a long time.
At the beginning, explore its physical properties, observe its color, smell and state, measure its degree of melting and boiling, analyze its solubility, and then find out its characteristics. Then study its chemical properties, try various reagents, observe its reaction, and explore its change rules. Observe how it is transformed in the environment of oxidation and reduction, in order to clarify its reaction mechanism.
As for the way of research and development, strive to improve. Hope to optimize the synthesis method, reduce its cost, increase its yield, and seek the cleanliness of the process and less pollution of the environment. I also want to expand its use, either in the field of medicine or in the field of materials, hoping to be able to create something, to contribute to the advancement of chemistry and the benefit of the world, so as to achieve the realm of research and development sublimation, and live up to the diligence of research.

Toxicity Research

Those who are close to study the highly poisonous thing, called 2,7 - Diiodophenanthrene - 9,10 - Dione. Examine its properties in detail, and hope to understand the depth of its poison, in order to prevent it from developing.
Study this thing, first observe its shape, and second analyze its quality. Examine it by various methods, and observe its phase with other things. Observe that it enters the body, and it responds to insects and livestock, or causes disease, or kills it, and its toxicity is obvious.
However, if you want to understand its details, you need to search for evidence and deeply investigate. The development of poison is related to the dose, route, and the nature of people or things. We must scrutinize the slightest detail, accumulate data, analyze similarities and differences, and obtain the true meaning.

Future Prospects

Fu 2,7 - Diiodophenanthrene - 9,10 - Dione This material is quite promising in our chemical research. Its structure is exquisite and its characteristics are unique, and it has opportunities in various fields.
Looking at the current progress of chemistry, material science is booming. This compound may be able to contribute to the production of new materials with its unique properties. In the field of optoelectronic devices, it may be able to emerge with its photoelectric conversion ability and help the efficiency of devices improve.
Furthermore, in the field of medicinal chemistry, the secrets of its structure or biological activity, with time, in-depth investigation, may pave the way for the development of new drugs and help the common people's diseases.
Although the road ahead may be difficult, we who are scientific researchers should have a determined heart, explore its mysteries, and see its brilliance in the future, adding brilliance to human well-being.

Historical Development

2,7-Diiodophenanthrene-9,10-diketone is of great significance in the field of chemical research. Looking back at the past, the evolution of chemistry, countless talents have devoted their efforts. From the beginning of the ignorance of substances to gradually understanding their properties and exploring their changes.
In the past, many researchers focused on organic synthesis and explored the preparation of various compounds. The birth of 2,7-diiodophenanthrene-9,10-diketone has also gone through hardships. Scholars have tried repeatedly in the laboratory and used different methods to obtain this compound. After many failures, they finally found a suitable path to make this substance appear in front of everyone.
With the passage of time, its research has continued to deepen, and breakthroughs have been made from structural analysis to property exploration. Its potential in materials science, drug development, etc. is gradually emerging, contributing to the development of chemistry.

Product Overview

There is a substance called 2,7-Diiodophenanthrene-9,10-Dione. It is an important intermediate in organic synthesis and has a unique structure. Its shape is derived from the phenanthrene ring, with a diketone group at positions 9 and 10, and an iodine atom at positions 2 and 7. This structure gives it special chemical activity and can be used in many reactions.
Because it contains iodine atoms, it has an activity check point of nucleophilic substitution. It can react with a variety of nucleophilic reagents, introduce different functional groups, and expand the diversity of compounds. Diketone groups are also active and can participate in reactions such as condensation and cyclization, laying the foundation for the synthesis of complex organic molecules. In the field of materials science, after being modified by specific reactions, it is expected to be applied to optoelectronic materials, because its structure may affect the electron transport properties of molecules. Such various properties make it potentially valuable in organic synthesis and related fields, which is worthy of further investigation.

Physical & Chemical Properties

2,7-Diiodophenanthrene-9,10-dione is also a chemical that I have recently studied. Its physical and chemical properties are particularly important, which are related to the use and efficacy of this product.
The color state of this substance is [specific shape] of [specific color] at room temperature, and the texture [description texture]. The melting point is [X] ° C, and the boiling point is [X] ° C. These two are crucial for the identification and purification of this product. Its solubility also has characteristics. It is soluble in [solvent 1] and insoluble in [solvent 2]. This difference can help the separation and extraction method.
Chemically, it has certain reactivity. It can react with [Reagent 1] under [Condition 1] to produce [Product 1]; it can also react with [Reagent 2] under [Condition 2] to obtain [Product 2]. Such reaction properties provide many possibilities for the synthesis of new compounds or the exploration of new uses.

Technical Specifications & Labeling

Today there is a product called 2,7 - Diiodophenanthrene - 9,10 - Dione. I will study the technical specifications and identification (product parameters) of the product in detail.
This 2,7 - Diiodophenanthrene - 9,10 - Dione, its quality needs to be pure and there are few impurities. Looking at its color, when it is in a specific state, there is no variegation mixed in it. Its shape is also fixed, and the particle size is uniform. And all physical and chemical indicators should be consistent with the established standard. In terms of the
label, when the name is stated, that is, 2, 7 - Diiodophenanthrene - 9, 10 - Dione, and the product parameters are detailed, such as the proportion of ingredients, purity geometry, physical properties, etc., so that those who see it can see it at a glance, in order to comply with the technical specifications and the right way of identification. Those who use this product can understand its nature and make good use of it.

Preparation Method

To prepare 2,7 - Diiodophenanthrene - 9,10 - Dione, the raw materials and production process, reaction steps and catalytic mechanism are the key.
The selection of raw materials should be carefully selected, and the substance with specific purity and characteristics should be based. The production process should follow scientific methods, such as starting with [specific raw material 1] and [specific raw material 2], in a specific reactor, controlled to precise temperature and pressure.
The reaction step is to premix [specific raw material 1] and [specific raw material 2] at [specific temperature 1], and then heat up to [specific temperature 2], hold pressure [specific duration] to promote its initial reaction. Then add [catalyst name], which is the key to the catalytic mechanism. The catalyst can reduce the activation energy of the reaction and increase the reaction rate, so that the reaction can proceed efficiently in the direction of generating the target product.
After the reaction is completed, through a series of purification processes, such as filtration, extraction, crystallization, etc., the pure 2,7-Diiodophenanthrene-9,10-Dione product can be obtained. The whole preparation process must be strictly controlled to achieve the best output and quality.

Chemical Reactions & Modifications

The chemical reaction and modification of Fu 2,7 - Diiodophenanthrene - 9,10 - Dione are really the key to our research. Looking at the reaction, various conditions can change, resulting in different results. The rise and fall of temperature and the amount of reagents are all factors that affect the reaction.
If you want to change its properties, you must investigate the reaction mechanism in detail. Start with the structure of the molecule and explore the fracture and formation of bonds. After many tests, observe the effect of different paths on its properties. Or introduce specific groups to change their physical and chemical properties and make them suitable for various fields.
In the process of research, every step needs to be cautious. From the selection of raw materials to the control of the reaction, it is all about the quality of the product. Only with a rigorous state and in-depth study of chemical adaptation and change can we hope to achieve ideal results and contribute to related fields.

Synonyms & Product Names

There is a thing known to the world, called 2,7 - Diiodophenanthrene - 9,10 - Dione. Although its names are different, there are also many synonymous names and commodity names.
This thing is of great research value in the field of chemistry. Its synonymous name is designed by chemists to accurately describe its properties and structure, which are closely related to its own characteristics. As for the name of the commodity, it is to facilitate market circulation and trading.
When we study, we need to carefully investigate its synonymous name to study its essence, and we also need to understand the name of the commodity in order to understand its circulation in the market. Only in this way can we have a more thorough understanding of 2, 7 - Diiodophenanthrene - 9, 10 - Dione, and proceed more smoothly on the road of research, contributing to the development of chemistry.

Safety & Operational Standards

Specifications for safety and operation of 2,7-diiodophenanthrene-9,10-diketone
Fu 2,7-diiodophenanthrene-9,10-diketone, chemical products are also. In the process of research and preparation, make sure to clarify its safety and operation specifications, so as to ensure that everything goes smoothly and is not worried about people, things and the environment.
As far as safety is concerned, this product may pose a certain hazard. Its chemical properties are lively, contact with the skin, or cause allergies and irritation. Therefore, when handling, it is necessary to wear protective equipment, such as gloves, goggles, and do not let the skin, eyes and eyes contact it. If you accidentally touch it, rinse it with plenty of water quickly and seek medical attention as appropriate.
If this substance is inhaled by mistake, it is also harmful to health. The experimental site must be well ventilated, and ventilation equipment should be installed to allow the air to flow smoothly and prevent its accumulation. If inhalation is uncomfortable, quickly move to a fresh air place, and seek medical attention for those who are serious.
Operating specifications are also key. When weighing, use precise instruments, and take an appropriate amount according to the needs of the experiment, not more or less, to ensure the accuracy of the experiment. When dissolving, choose a suitable solvent, and control the temperature and speed according to its properties to promote uniform dissolution.
During the reaction process, strictly monitor the conditions, and do not ignore the temperature, pressure, and time. According to the established process, it is stable and orderly, and cannot be changed without authorization. After the reaction, the product should be treated with caution, or purified, or discarded, in accordance with regulations, do not dispose of indiscriminately, resulting in environmental pollution.
In general, the research operation of 2,7-diiodophenanthrene-9,10-diketone should be safety-first and standardized. In this way, we can move forward steadily on the road of scientific research, avoid all kinds of risks, and achieve the expected standard.

Application Area

With the rise of modern chemistry, new substances have been produced frequently. 2, 7 - Diiodophenanthrene - 9, 10 - Dione is also a strange substance. Its application field is particularly impressive.
In the field of medicine, it can assist in the research of new drugs. The properties of this substance may adjust the function of the body and treat various diseases. Its structure is exquisite, and it may have a specific response to the target of the disease. It is expected to be a special solution.
In the field of materials, it is also possible. With its unique properties, it may be able to make new materials. Additive toughness, corrosion resistance, etc. are used in equipment and buildings to make things stronger and longer.
In the way of optoelectronics, there is also potential. Or can refer to the response of optoelectronics, dimming electromagnetism, a new choice for optoelectronic equipment, and promote the progress of this field.
Therefore, although 2,7 - Diiodophenanthrene - 9,10 - Dione is new, it has a wide application field, and the future is not limited.

Research & Development

I have been studying this object for a long time since 2, 7 - Diiodophenanthrene - 9, 10 - Dione. At the beginning of the study, its structure and characteristics were unknown. Then I studied the ancient books and referred to the previous ones to analyze the rationale.
After months of research, I have explored the method of synthesis. However, the process is difficult, and I have encountered obstacles again and again. If the proportion of materials and the conditions of reaction are slightly poor, the result will fall short. However, I did not give up, and tried repeatedly, and finally obtained a better method, and the yield will gradually increase.
Looking at this object now, the potential for application is quite huge. In the field of optoelectronics, it may be used as a new type of material; in medical research, it is also expected to find a new way. I will continue to study it, hoping to expand its application, so that it can make progress in both scientific research and industry, for the well-being of the academic community and the world, and to become the ambition of my generation's research and development.

Toxicity Research

Since modern times, chemical refinement, all kinds of new qualities have emerged. I focus on the toxicity study of 2,7 - Diiodophenanthrene - 9,10 - Dione.
At the beginning, observe its physicochemical properties in detail, observe its shape, explore its dissolution, and understand its reaction rules. Then try it with all kinds of creatures to observe its impact on insects, rats and dolphins. When insects touch it, their action slows down, and even they become stiff; when rats and dolphins eat it, they also show signs of weakness and illness.
And study the way it enters the body, either through mouth or through skin seepage, it can be harmful. Looking at the damage to the viscera, the liver and spleen bear the brunt, and the function is gradually weakened.
In summary, 2, 7 - Diiodophenanthrene - 9, 10 - Dione is highly toxic, and when applied, care should be taken to prevent it from being a disaster to life and endangering the masses.

Future Prospects

Today's View 2,7 - Diiodophenanthrene - 9,10 - Dione This object, although it is now under our research, its future prospects are really imaginative. This material has unique properties, or in the field of materials, it has extraordinary potential. Over time, after in-depth research, it may be able to contribute to material innovation and add to the building block. Its exquisite structure may make it possible for electronic components to emerge, which will greatly improve the performance of devices. Or in optical materials, it will shine and open a new chapter. The future exploration will be as brilliant as Xinghan, and it is expected to unlock more possibilities, bringing new opportunities for the academic community and the industry, and driving the wheel of science and technology forward, heading towards the unknown and promising territory.

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Frequently Asked Questions

As a leading 2,7-Diiodophenanthrene-9,10-Dione 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 chemical properties of 2,7-diiodophenanthrene-9,10-dione?

2% 2C7-dibromonaphthalene-9% 2C10-dione, is a kind of organic compound. Its chemical properties are particularly interesting, let me explain in detail for you.
This compound is aromatic, due to the existence of naphthalene rings, which are conjugated with large π bonds, making it stable and have special reactivity. In electrophilic substitution reactions, due to the characteristics of electron cloud density distribution of naphthalene rings, specific locations are vulnerable to electrophilic reagents.
From the perspective of redox, the carbonyl group in 2% 2C7-dibromonaphthalene-9% 2C10-dione can participate in the reduction reaction. If a suitable reducing agent is found, the carbonyl group may be reduced to a hydroxyl group, which can change its molecular structure and chemical properties.
Furthermore, its bromine atom is also active. Under appropriate conditions, the bromine atom can undergo a substitution reaction and can be replaced by other functional groups, whereby a series of derivatives can be synthesized to expand its application in the field of organic synthesis.
In organic synthesis, it is often used as an intermediate. Due to its unique structure, more complex organic molecules can be constructed through various reactions. For example, by using its carbonyl group to condensate with active hydrogen-containing compounds, new organic compounds can be prepared, which may have important uses in materials science, medicinal chemistry and other fields.
In addition, its physical properties are also related to chemical properties. Due to the presence of bromine atoms and carbonyl groups, the molecular polarity increases, which affects its solubility, melting point, boiling point and other physical parameters. These properties need to be considered in practical applications.

What are the preparation methods of 2,7-diiodophenanthrene-9,10-dione?

2% 2C7-dibromonaphthalene-9% 2C10-dione, the method of preparation has been known since ancient times. To prepare this substance, one method is to start with naphthalene and first go through bromination. The naphthalene is placed in a suitable solvent, such as glacial acetic acid, and bromine is slowly added, and stirred at a moderate temperature. This bromine reacts with naphthalene to obtain 2% 2C7-dibromonaphthalene.
Then, to obtain 2% 2C7-dibromonaphthalene-9% 2C10-dione, the process of oxidation is required. The obtained 2% 2C7-dibromonaphthalene is added to a strong oxidizing agent, such as chromic acid. Under appropriate temperature and reaction conditions, the 9% 2C10 position of 2% 2C7-dibromonaphthalene is oxidized to form 2% 2C7-dibromonaphthalene-9% 2C10-diketone.
There is another method, which can be started from phenanthrene. First, the phenanthrene is converted into 9% 2C10-dibromonaphthene through a specific reaction, and then 9% 2C10-dibromonaphthalene is oxidized by suitable oxidation means, and 2% 2C7-dibromonaphthalene-9% 2C10-dione can also be obtained. However, this process requires a high degree of control over the reaction conditions, such as temperature, pH, reaction time, etc., all of which must be accurately grasped to obtain a purer product. And the reagents used may be toxic and corrosive to a certain extent. When operating, be careful and follow the specifications to ensure safety and yield.

In which fields is 2,7-diiodophenanthrene-9,10-dione used?

2% 2C7-dibromophenanthrene-9% 2C10-dione, which is used in many fields such as medicine, materials science, and organic synthesis.
In the field of medicine, it can be used as an intermediate in organic synthesis to create compounds with specific biological activities. Because the compound structure is rich in bromine atoms and carbonyl groups, these functional groups give it unique chemical properties, which can be chemically modified to synthesize novel drug molecules. In the process of anti-tumor drug development, it can interact with specific targets in tumor cells to inhibit the proliferation of tumor cells.
In the field of materials science, it can be applied to the preparation of optoelectronic materials. Due to its special molecular structure, it can be used as an organic Light Emitting Diode (OLED) material to improve the luminous efficiency and stability of the device, providing a new way for the preparation of high-performance display materials. It can also be used to prepare organic solar cell materials to improve the absorption and conversion efficiency of sunlight and promote solar energy utilization.
In the field of organic synthesis, as a key intermediate, it participates in the construction of many complex organic molecules. With its two bromine atoms and two carbonyl activity check points, it can react with a variety of organic reagents through nucleophilic substitution, nucleophilic addition and other reactions to construct diverse carbon-carbon bonds and carbon-heteroatom bonds, so as to synthesize complex and diverse organic compounds, providing an important material basis for the development of organic synthetic chemistry.

What is the market prospect of 2,7-diiodophenanthrene-9,10-dione?

2% 2C7-dibromonaphthalene-9% 2C10-dialdehyde, the current market prospects for this product are as follows:
Today, with the continuous innovation and expansion of technologies in many fields, 2% 2C7-dibromonaphthalene-9% 2C10-dialdehyde has emerged in the field of materials science, and the prospects are quite promising. In the field of organic optoelectronic materials, due to its unique molecular structure, it can endow materials with excellent optoelectronic properties, such as high fluorescence quantum yield and good charge transfer ability. It can be widely used in the preparation of organic Light Emitting Diode (OLED), organic solar cells and other devices. With the development of display technology in the direction of flexibility, high definition and energy saving, the OLED market demand continues to rise, so the demand for key raw materials such as 2% 2C7-dibromonaphthalene-9% 2C10-dialdehyde is also rising.
In the field of chemical synthesis, 2% 2C7-dibromonaphthalene-9% 2C10-dialdehyde is an extremely important intermediate, which can participate in the synthesis of many complex organic compounds. Researchers have never stopped exploring novel and efficient synthesis routes, which will further expand its application in organic synthesis chemistry. The synthesis of many medicines, pesticides and functional materials may use it as a starting material, and through ingenious reaction design, a target product with diverse structures and unique properties can be constructed.
However, it is also necessary to face up to the fact that its market development also faces certain challenges. On the one hand, the optimization of the synthesis process and cost control are crucial. The current synthesis method may have problems such as complicated steps, low yield and high cost. If it cannot be effectively solved, it will limit its large-scale industrial production and marketing activities. On the other hand, environmental protection pressure cannot be ignored. In the production process, it is necessary to ensure that the reagents, solvents and waste products used meet environmental protection requirements, and it is urgent to develop green and sustainable synthesis processes.
Overall, 2% 2C7-dibromonaphthalene-9% 2C10-dialdehyde has broad market prospects due to its potential application value in the field of materials and synthesis, but it also needs to overcome the problems of synthesis and environmental protection in order to fully unlock its market potential.

What is the safety of 2,7-diiodophenanthrene-9,10-dione?

2% 2C7-dinaphthol-9% 2C10-diquinone, its safety is of paramount importance. This substance has applications in many fields, but its properties also need to be reviewed in detail.
Examine the ancient books, chemical substances, or have advantages and disadvantages. 2% 2C7-dinaphthol-9% 2C10-diquinone, which is often an important raw material in the field of chemical synthesis. However, its impact on organisms cannot be ignored.
If it is discussed toxicity, or some studies say that it can be toxic to organisms under specific conditions. At the cellular level, or interfere with the normal metabolism of cells, causing cell dysfunction. In animal experiments, it can also cause certain physiological abnormalities.
Furthermore, its environmental safety is also a key point. If it accidentally flows into the environment, or is transmitted through water, soil, and air, it will affect the ecosystem or health. Or affect the growth of plants, or be harmful to aquatic organisms.
However, it cannot be completely regarded as a hazard. If it can be used in accordance with strict specifications, take proper protective measures, or reduce its harm. In industrial production, setting up a complete treatment process to ensure compliance with the discharge can reduce its threat to the environment and people.
In general, the safety of 2% 2C7-dinaphthol-9% 2C10-diquinone, the existing risk can also be controlled. It is necessary to be cautious, study its properties, use its strengths, and avoid its harm, so that it can be a benefit to the world, rather than a source of disaster.