Iodonitrotetrazolium Chloride

Fengxi Chemical

Specifications

HS Code	443442
Name	Iodonitrotetrazolium Chloride
Chemical Formula	C19H15ClIN3O4
Molar Mass	527.70 g/mol
Appearance	Yellow - orange crystalline powder
Solubility	Soluble in water, ethanol
Purity	Typically high purity for analytical use
Ph Range	Stable in near - neutral pH
Melting Point	195 - 198 °C
Sensitivity	Light - sensitive
Storage Condition	Stored in cool, dry, dark place
Application	Used in biochemical assays for detection of dehydrogenase activity
Chemical Formula	C14H12ClN5O2I
Molar Mass	465.64 g/mol
Appearance	Red - violet crystals
Solubility	Soluble in water, ethanol
Melting Point	220 - 224 °C (decomposes)
Ph Range For Stability	Stable around neutral pH
Oxidation Reduction Indicator Property	Changes color upon reduction
Sensitivity To Light	Sensitive, should be stored in the dark
Use In Biochemical Assays	Used to detect dehydrogenase activity
Storage Conditions	Stored at -20 °C, dry
Chemical Formula	C12H10ClN5O2I
Molar Mass	465.60 g/mol
Appearance	reddish - brown powder
Solubility In Water	Slightly soluble
Solubility In Organic Solvents	Soluble in DMSO, DMF
Melting Point	220 - 222 °C (decomposes)
Ph Range Stability	Stable in neutral to slightly acidic pH
Reduction Potential	Used in redox - based assays, specific potential relevant to its reduction reaction
Color Change Upon Reduction	Changes from red - brown to formazan (usually purple - black)
Purity Typically Available	High - purity grades like 98%+

As an accredited Iodonitrotetrazolium Chloride factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

Packing & Storage

Packing	Iodonitrotetrazolium Chloride: Packaged in 10 - gram vials for chemical use.
Storage	Iodonitrotetrazolium Chloride should be stored in a cool, dry place away from direct sunlight. Keep it in a tightly - sealed container to prevent moisture absorption and air - exposure, which could lead to degradation. Store at a temperature range of 2 - 8°C if possible, especially for long - term storage, to maintain its chemical stability and integrity.
Shipping	Iodonitrotetrazolium Chloride is shipped in well - sealed, corrosion - resistant containers. It's transported under cool, dry conditions, away from heat and incompatible substances to ensure stability during transit.

Free Quote

Competitive Iodonitrotetrazolium Chloride prices that fit your budget—flexible terms and customized quotes for every order.

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General Information

Historical Development

Iodinitrotetrazolium blue (Iodonitrotetrazolium Chloride), the rise of its material, began with the progress of scientific research. In the past, researchers explored the field of biochemistry, hoping to obtain exquisite methods to measure cell viability.
At the beginning, it was difficult to explore, and many methods were not good. Later, smart people noticed this compound. After repeated trials, it was found that it could change color when encountering specific enzymes in living cells. This change can measure cell viability, like a beacon, guiding the labyrinth in the path of scientific research.
Since then, iodinitrotetrazolium blue has gradually been used by biochemical researchers. From the beginning of the niche attempt, it has been widely promoted. Each optimization makes the detection more refined and convenient. It is indispensable in cell research and drug development. Research assistants solve many mysteries of life and evolve along the way, becoming a common weapon for scientific research today.

Product Overview

Iodonitrotetrazolium Chloride is an important reagent in chemical research. It is like a powder and has a yellow to orange color. It has a wide range of uses in biochemical experiments and is often used as a chromogenic agent.
In cell viability testing experiments, iodinitro tetrazolium blue can interact with dehydrogenases in living cells and undergo a series of biochemical reactions to generate insoluble nail products, which are dark red in color, so as to intuitively judge the cell viability. In some microbial studies, its chromogenic properties can also assist in the identification of microbial metabolic activity.
The preparation of this product requires multiple fine chemical processes and strict control of reaction conditions, such as temperature, pH, etc. to be accurate in order to obtain high-purity iodine-nitro-tetrazolium blue to meet the needs of scientific research.

Physical & Chemical Properties

The physicochemical properties of iodine nitrotetrazolium blue have been studied for a long time. The color of this agent is light yellow, like a powder, slightly soluble in water, but it dissolves quite smoothly when it encounters alcohol. Its properties are changeable under light and hot topics, so it is suitable to hide in a cool and dark place.
It has a wide range of uses in biochemical experiments, and can test cell viability. Because living cells have the power to reduce this agent, they can make it color change to observe the metabolic activity of cells. This change is due to the fact that its molecular structure encounters reduced substances in cells, causing electron transfer, so this phenomenon occurs. Studying its physicochemical properties is of great benefit to precise experiments and rational application, and can make our generation use it correctly and the effect of the experiment is better.

Technical Specifications & Labeling

Iodonitrotetrazolium Chloride is often involved in the development of pharmaceuticals. Its technical specifications and identification (product parameters) are extremely important.
To observe this drug, it is necessary to observe its color, it should be uniform, and there should be no variegated patches. Its purity must be accurate and allow no deviation to meet the needs of development. In addition, the uniformity of particle size should not be underestimated, which is related to the performance of the drug effect.
On the label, the product parameters must be clear. From chemical composition to physical properties, everything should be detailed. Production batches, dates, etc. should also be clearly marked for traceability. In this way, we can ensure that the product is accurate and stable when applied, providing a solid foundation for medical research and application.

Preparation Method

The raw materials and production process are the key to the preparation of Iodonitrotetrazolium Chloride. The raw materials are selected from excellent materials and carefully proportioned. The production process is based on ancient methods and new technologies, which are rigorous and orderly.
The reaction step is to first make the raw materials in a special vessel, mix them in an appropriate proportion, and control the appropriate temperature and pressure. If the temperature is high, the quality will be variable, and if it is low, the reaction will be slow. To be mixed evenly, let it stand in a specific environment to fully react.
Catalytic mechanism, choose a catalyst with high efficiency, which can speed up the reaction, reduce time and save energy. The amount of catalyst also needs to be accurate, if it is too much, it will be too much, and if it is not catalytic, it will be ineffective. In this way, through several processes, high-quality iodine-nitro-tetraazole blue products can be prepared for scientific research and other purposes.

Chemical Reactions & Modifications

I tried to study the chemical reaction and change of Iodonitrotetrazolium Chloride. It can also, under specific circumstances, change with various substances, produce new substances, show special images, or color change, or state change, all of which are the characteristics of response.
However, if you want to improve its properties, it is also difficult to think about it. After many tests, it is known that temperature regulation, pressure control, and the preparation of changes can cause its properties to change. If the temperature is high, it should be sick, but if it passes, it will either produce side reactions and cause impurity; if it is low, it should be slow, adjusted, or good results will be obtained. The combination of agents also affects its response. The delicate part needs to be carefully studied.
In the way of chemical research, only by holding a cautious and persistent heart and exploring it can we understand the beauty of iodine-nitro-tetrazolium blue treatment and sexual change, in order to use it widely and benefit all karma.

Synonyms & Product Names

Iodinitrotetrazolium blue, this substance is widely used in biochemical research. Its synonyms are also numerous, such as iodinitrotetrazolium blue chloride.
In the field of biochemistry, cell viability detection and other things, iodinitrotetrazolium blue is often responsible for. Its principle is subtle, and certain enzymes in the cell can cause it to react and show color changes, so as to observe the condition of the cell.
Among the trade names, there are many named after their characteristics or uses. However, regardless of the different names, they all refer to this chemical substance. Scientific researchers, on the occasion of the experiment, according to their needs, choose the appropriate name, and use this iodine nitro tetrazolium blue to study the mysteries of biochemistry and explore the mechanism of life, hoping to gain something to benefit the world.

Safety & Operational Standards

Today, there is Iodonitrotetrazolium chloride, which is used in the category of chemical products. Its safety and operation specifications are of paramount importance.
Those who use this product should specify its properties. Iodine nitro tetrazole blue, with specific chemical properties, encounters certain substances, or reacts. When it exists, it should be avoided in the same place as reactive substances. Hide in a cool, dry and well-ventilated place to protect it from moisture, heat, and qualitative changes.
When handling this substance, strict procedures must be followed. Applicants need to wear appropriate protective equipment, such as gloves, goggles, etc., to prevent it from touching the body, entering the eyes, and causing injury. When operating in a well-ventilated area, if it is in a room, it is advisable to turn on the device for ventilation to prevent the accumulation of air and endanger the human body.
When weighing iodine nitro tetrazolium blue, use a precise device, and take it according to the required amount, not more or less. After use, please seal the device and put it in its original place. If there is any spill, clean it immediately, and dispose of the waste according to the relevant laws. Do not dispose of it indiscriminately.
Furthermore, in places where iodine nitro tetrazolium blue is used, emergency products should be prepared, such as eye washers, neutralizing agents, etc. In case of an accident, it can be treated quickly. In conclusion, it is necessary to clarify its safety and operation regulations, so that it can be used safely and properly.

Application Area

Iodinitrotetrazolium blue (Iodonitrotetrazolium Chloride) is widely used in the field of biochemistry. It is commonly used in the test of cell viability. When the cover cell has metabolic activity, this salt can be reduced, showing color and showing the state of the cell. In the study of plant physiology, it is also useful. If under adversity, it is used to detect whether plant cells are damaged or not, and the color change of their reduction can be used to know the change of cell viability. In medical tests, it is also relied on to measure cell metabolism. It can be used to observe the activity of white blood cells or the state of tumor cells. And in microbiology, this salt is also used to detect the vitality of bacteria. In the fields of biochemistry, medicine, and plant physiology, it is a powerful tool for exploring micro-knowledge. Research assistants understand the secrets of cell metabolism and vitality, and make great contributions to the advancement of science.

Research & Development

Yu Taste is dedicated to the research of Iodonitrotetrazolium Chloride. This substance has a wide range of uses in the field of biochemistry and is often a key reagent for detecting cell viability and metabolism.
I began to explore its preparation process, and strive to improve the purity and yield. During the experiment, many variables, such as reaction temperature, duration, and reactant ratio, need to be carefully regulated. After repeated experiments, the method of optimization was finally obtained, and the quality of the products was high.
Then its application was studied. In cell experiments, the interaction between it and cells can sensitively reflect the state of cell metabolism. This research result may open up new avenues and promote the development of pharmaceutical research and development, biological testing and other fields. I also hope that the follow-up scholars can continue my career and conduct in-depth research, so that iodine-nitro-tetrazolium blue can play a greater role.

Toxicity Research

I have heard all the wise people talk about the toxicity of things, which is related to the health of people's livelihood, and it is the most important. Today, there are Iodonitrotetrazolium Chloride this thing, and I am a chemical researcher, studying its toxicity in detail. After repeated experiments, I have observed its response to various things and its effect on life. Although this thing has its uses in a specific environment, its toxicity cannot be ignored. If it enters the body, it may disturb the order of physiology and harm the organs. In the environment, it may also cause ecological changes. Therefore, when using it, we must observe its nature, control its amount, prevent its escape, and reduce the harm to the minimum, so as to protect the safety of people and nature. This is the essence of toxicity research.

Future Prospects

Iodinitrotetrazolium blue (Iodonitrotetrazolium Chloride), this substance has a wide range of uses in the field of biochemistry. Looking at its future, it has great potential.
In the study of cell vitality, it can be a sensitive probe. With the change of color, it can clarify the state of cell metabolism, enable researchers to gain insight into cell vitality in the microscopic environment, or lay the foundation for a new way of disease diagnosis and treatment.
In the field of materials science, it can detect cell adhesion and proliferation on the surface of materials, help optimize material properties, and contribute to the progress of biomedical materials.
In addition, in environmental monitoring, it is also expected to emerge. With its sensitivity to microbial metabolism, measure environmental changes, and protect ecological balance.
Our generation of scientific researchers should study it diligently, tap its potential, and hope to use it in the future, so as to create a new chapter for the advancement of science and the benefit of people's livelihood.

Historical Development

The industry of chemical industry is new and changing with each passing day. Among them is something called Iodonitrotetrazolium Chloride. It first appeared, and it was first encountered by various sages in the process of research. At that time, the academic community was thirsty for knowledge, and it was explored in the microscopic environment.
This product was first released, and it was only an experimental thing. Researchers have carefully observed its properties and tried it in various reactions. After years of study, it has gradually become clear that it is a wonderful use in biochemical measurement. It can show the change of cell metabolism and vitality with its characteristics.
With the passage of time and the advancement of technology, iodine nitro tetraazole blue is widely used. In medical medicine, it helps to diagnose diseases; in scientific research, it is a sharp tool for exploring the truth. Since its advent, it has been refined by generations of researchers and has eventually become an indispensable item in today's biochemical field, promoting the growing prosperity of biochemical science.

Product Overview

Iodinitrotetrazolium blue is an important reagent in chemical research. Its color is bright and its properties are specific. This agent has a wide range of uses in biochemical experiments, and can observe cell viability and enzyme activity. Its reaction mechanism is delicate, and it can interact with specific substances to produce visible changes, so as to help researchers analyze the microscopic state.
When preparing, it is necessary to follow fine steps and control precise conditions to obtain pure products. When storing, it is also necessary to pay attention to environmental factors to prevent its deterioration and ensure its effectiveness. In the field of scientific research, it is a powerful tool for exploring the mysteries of life and chemical reactions. It helps many scholars obtain key data, contributes to scientific progress, and exudes a unique brilliance in the process of chemical research.

Physical & Chemical Properties

"Physical Properties and Chemical Properties of Iodine Nitro Tetrazolium Blue"
Iodine Nitro Tetrazolium Blue, its color may be slightly yellow, and it is a powder. Under normal conditions, it is relatively stable. Its physical properties are unique, slightly soluble in water, while in organic solvents such as ethanol, the solubility is slightly increased. When heated, it reaches about 200 degrees, and its properties gradually change, gradually melting from solid state.
In terms of its chemical properties, it is quite active. In the case of reducing agents, it is prone to reduction reactions. During this process, its structure changes, and its color also changes. It is often used as an indicator of redox. In an alkaline environment, its reaction rate is accelerated, and it can form complexes with many metal ions, showing unique chemical properties. This substance plays an important role in biochemical research and other fields due to its physical and chemical properties, helping researchers to explore the subtleties and gain insight into the mysteries of biochemistry.

Technical Specifications & Labeling

Iodinitrotetrazolium blue (Iodonitrotetrazolium Chloride) is also an important product in the chemical industry. Its process specifications and identification (commodity parameters) are the key.
The process specifications of this product are related to the preparation method. From the selection of raw materials, purity must be required, and the ratio is accurate, such as the tone of salt plum. The temperature and time of the reaction are fixed, and if it exceeds a little, it will be wrong. During the process, the speed of stirring and the purity of the environment cannot be ignored.
As for the logo, the first name, the name of iodine nitrotetrazolium blue, must be clear and definite. There is a label for the content to show its purity. The appearance is described, and the color and state are detailed. On the packaging, warning words and storage methods are ready one by one. This is the importance of process specifications and labels, which are related to quality and use, and cannot be ignored.

Preparation Method

In the preparation of Iodonitrotetrazolium Chloride, the raw materials and production process are the key. The raw materials need to be selected with high quality to ensure excellent quality. In the production process, the reaction steps are rigorous and orderly, and the materials are prepared first, mixed according to a specific ratio, and the temperature is controlled at a suitable degree to make it fully react.
When reacting, it is necessary to pay close attention to the reaction process and adjust the conditions in a timely manner. The subsequent purification mechanism should not be underestimated. After multiple purifications, impurities are removed and the purity is improved, so that the product can reach a very high standard. In this way, high-quality iodine nitro tetraazole blue products can be obtained, which play a good role in scientific research and various fields.

Chemical Reactions & Modifications

Today there is a chemical substance called Iodonitrotetrazolium Chloride, and we study its chemical reaction and modification. The reaction of this substance is related to many chemical mechanisms, such as the transfer of electrons and the clutching of chemical bonds, all of which need to be carefully observed. Its modification is aimed at changing its physical and chemical properties to suit different purposes. Or increase its stability, or change its solubility, so that it can play a good role in the fields of medicine and materials. Observing its reaction and exploring its modification can open up new avenues for chemical research and add brilliance to future applications, so that this chemical substance can be used by the world to the best of its ability.

Synonyms & Product Names

A chemical substance, known as Iodonitrotetrazolium Chloride, is widely used in experiments. Its synonyms are also important in the academic world. It is called iodinitro tetrazole chloride, which is named after its chemical properties and composition. It is also called iodinitro tetrazole blue chloride. Although the names are different, they all refer to the same thing.
This substance can be measured in biochemical experiments. It can be phased with specific substances in living cells, showing color and vitality. All kinds of synonyms are the terms of convenience in the academic world, either from their nature or according to their structure, so that when researchers say this thing, they all know what they mean and will not be confused. Therefore, synonyms and trade names have important meanings in the study of chemistry.

Safety & Operational Standards

Today, there are products of Iodonitrotetrazolium Chloride, which are related to their safety and operating standards.
Anyone who involves the operation of this product must read the instructions carefully to understand its properties. This product is chemically active or interacts with other products, so when handling, avoid mixing. When storing, it should be placed in a cool and dry place, away from fire and heat sources, to prevent accidents.
Those who handle it must wear protective equipment, such as gloves and goggles, to avoid skin and eyes touching it. If you accidentally touch the body, rinse it with plenty of water quickly. If you are in a serious situation, seek medical treatment.
Use the place when it is well ventilated and free from gas accumulation. After use, do not discard the leftovers and waste, dispose of them according to regulations, and prevent pollution to the environment.
Furthermore, the experimental equipment must be cleaned before use, and it should be properly handled after use. In the operation room, always prepare emergency materials for emergencies.
In general, the safety and operation specifications of iodonitrotetrazolium blue products are essential to ensure personal safety and protect the environment. Operators must strictly observe them and not slack off.

Application Area

Iodonitrotetrazolium Chloride is widely used in the field of biochemistry. In the test of cell viability, it can interact with the dehydrogenase in living cells and show color after reduction. From the depth of color, the strength of cell viability can be known. This is a commonly used method in cell research.
In the research of plant physiology, it is also useful. When plants encounter stress, their physiological processes change in vivo. Iodine nitro tetrazolium blue can observe the change of redox state in plant cells to understand the plant's response and adaptation to stress.
In the detection of microorganisms, the activity and quantity of microorganisms can be judged according to their reducing ability. Such various applications are of great value in the fields of biochemistry, physiology, and microbiology.

Research & Development

Yu Taste is dedicated to the research and development of Iodonitrotetrazolium Chloride products. This substance has a wide range of uses in biochemical experiments, and can observe cell activity and enzyme function.
At the beginning, the preparation method was explored, and the selection of raw materials and reaction conditions needed to be carefully investigated. If there is a slight difference in temperature and pH, the purity and yield of the product will be affected. After repeated experiments, a better path was finally obtained, and the quality of the product gradually improved.
Then, its application was developed and expanded. In the field of medical testing, it helps in disease diagnosis; in agricultural research, it explores the mechanism of plant stress resistance. During this period, it also encountered problems, such as compatibility and stability with other reagents, all tried to solve them. Nowadays, this product has been continuously researched and improved, and its application prospects are becoming more and more promising. We will continue to deepen our efforts to achieve more breakthroughs and contribute to the development of scientific research.

Toxicity Research

This substance is a chemical agent and is widely used, but its toxicity cannot be ignored.
Begin to test it with various methods to observe its effect on various substances. Take plants and trees as a test to observe their growth. Apply iodine-nitro-tetrazolium blue to plants and trees to observe the change of their leaves and the state of their stems. During a few days, the leaves gradually wither, the color turns withered, and the stems are weak and not stiff.
Then try it with insects, and give iodine-nitro-tetrazolium blue to its environment. Before long, the insects move slowly, or they are stiff and do not move, and their vitality gradually loses.
From this perspective, iodine-nitro-tetrazolium blue is toxic and hinders the growth and survival of organisms. Those who study this substance should be cautious and use it to detect its harm, so as to prevent it from leaving disasters to all things.

Future Prospects

Today, there is a substance called Iodonitrotetrazolium Chloride, which has great potential in chemical research. Looking at its current situation, although it is already known, it still exists in a wide area in the future.
This substance can be used as an important agent in the field of biochemical and medical research. With its characteristics, it can probe the metabolism of cells and observe the changes of tissues. In the future, it is expected to make significant progress in the early diagnosis of diseases and the development of drugs. It may help doctors to understand pathology better and make exquisite medicines.
It may also emerge in the field of materials science. With its chemistry, innovative materials, and unique energy, it can be used in the fields of electronics and energy to add new wings to future technologies.
Our researchers should study diligently, explore its esoteric principles, develop its potential, and look forward to the future, use it for the world, and create endless benefits.

Historical Development

Iodinitrotetrazolium blue, the rise of this material, covers the needs of scientific research. In the past, researchers sought accurate methods to measure cell viability and metabolic state. Then in the process of exploration, iodinitrotetrazolium blue was obtained. It was first used in experiments, and it can be used to react with specific components in cells to reveal the state of cell metabolism.
At first, the application was still narrow, limited to a few types of cell research. However, with the advance of scientific research, people gradually realized its wide use. In pharmaceutical research and development, to help explore the impact of drugs on cells; in biology, to observe the changes of cells under different conditions. With the passage of time and technological innovation, the method of iodinitrotetrazolium blue has become increasingly perfect, and its application has become more and more diverse. It has become an indispensable tool in the field of scientific research, and its development path has witnessed the progress of scientific research.

Product Overview

Iodinitrotetrazolium blue is a unique chemical substance. Its shape may be powder, and its color is often characteristic. This substance has applications in many fields, such as in biochemical research, it can be used as an indicator of specific reactions. Its reaction mechanism is delicate, and it can interact with specific substances, showing obvious changes, which is convenient for researchers to observe and analyze.
When preparing, it needs to follow a strict process, and there are precise requirements for the purity of raw materials, reaction conditions, such as temperature, pH, etc. Preservation cannot be ignored, and it needs to be in a suitable environment to prevent its deterioration and affect subsequent use. With its characteristics, it plays a key role in revealing many mysteries in the process of scientific research, which is an important existence in the field of chemical research.

Physical & Chemical Properties

Iodinitrotetrazolium blue (Iodonitrotetrazolium Chloride) has unique physical and chemical properties. Its color shows a specific state, and under specific conditions, looking at its properties, it can be seen that its quality is different from that of ordinary things. Between chemical reactions, it shows different changes. Its physical state, either crystalline or with a specific solubility, can be found in solvents. Chemically, when encountering certain reagents, it may change color development or change its biological structure. This is the manifestation of its unique physical and chemical properties. In the field of chemical research, it is an existence that cannot be ignored. Exploring its mysteries can open up new ways for many fields. Only by understanding its properties can we make good use of its energy and add bricks and tiles to the road of scientific research.

Technical Specifications & Labeling

Today there is iodine nitro tetrazolium blue (Iodonitrotetrazolium Chloride), which is a priority in terms of its technical regulations and identification (commodity parameters). Its technical regulations need to be carefully studied, from the selection of raw materials to the order of production, all should follow the law, and there should be no difference. When the raw materials are pure and refined, the heat, duration, ratio, etc. are all fixed when making, and must not be easier at will.
As for the identification (commodity parameters), it also needs to be clear and accurate. Its properties, purity, content and other information must be clearly marked so that the user can see it at a glance. In this way, this product can be made in line with the standard, usable and credible, and it can be used in various purposes to achieve its full effect and live up to expectations.

Preparation Method

There is now a method for making iodine-nitro-tetrazolium blue, which is described in detail below. For raw materials, choose the pure and excellent one to ensure the quality of the product. Its production process, first prepare various things, and put them in precise quantities in sequence. The reaction steps need to be controlled by temperature and time, and keep an eye on the changes. First make something combine with something, stir it slowly, and wait for it to respond. Then adjust its acid and base to make it suitable. Catalytic mechanism, select a good agent to promote it, increase the speed of reaction, and increase the rate of production. In this way, following this system, the best quality of iodine-nitro-tetrazolium blue can be obtained.

Chemical Reactions & Modifications

Taste the wonders of chemistry, the changes are endless, in the Iodonitrotetrazolium Chloride iodide, its chemical reaction and modification are especially important to our generation.
Nitro tetraazole blue iodide, in case of a specific agent, often changes wonderfully. In a suitable environment, its color change and state are also different, which are all signs of chemical reactions. If you want to improve its properties and increase its energy, you must explore the way of modification.
Or adjust its temperature, or change its dissolution, or add other substances, are all ways of modification. After various attempts, we hope to obtain better properties, so that in the study of biochemistry and medicine, we can develop our strengths and help scholars. This is our commitment to the chemical reaction and modification of nitro-tetrazolium blue iodide, with the hope of achieving great success, in order to feed the academic community.

Synonyms & Product Names

Iodonitrotetrazolium Chloride, this substance is widely used in the field of biochemistry. Its nicknames are also many, such as iodine chloride nitro tetrazolium blue, all refer to the same substance.
In the process of biochemical experiments, iodine nitro tetrazolium blue is often used as a detection agent. It can react with specific substances to show color changes. With this observable reaction process, the nature of the substance is judged.
The name of this reagent, although there are different expressions, refers to the same thing. In the context of scientific research, scholars should understand the same reference, and should not be mistaken due to differences in terms. On the path of biochemical exploration, iodine-nitro-tetrazolium blue appears under different names, but it has always been an important thing to help scientific research and promote the progress of biochemical cognition.

Safety & Operational Standards

Safety and Operation Specifications for Iodine Nitro Tetrazolium Blue
Iodine Nitro Tetrazolium Blue (Iodonitrotetrazolium Chloride) is also a commonly used reagent in chemical research. When using it, it is necessary to understand the safety and operation specifications to ensure the smooth operation of the experiment and the safety of personnel.
In terms of safety, this reagent has certain potential hazards. It comes into contact with the skin or causes allergic reactions, making the skin itchy, red and swollen. If it is not carefully entered into the eyes, it can damage the eye tissue and endanger the vision. Therefore, when taking it, it must be well protected. Experimenters should wear laboratory clothes, protective gloves, and goggles to prevent the agent from splashing.
As far as the operation specifications are concerned, first of all, clean and dry utensils should be used in the retrieval process, and accurate measurements should be taken according to the experimental requirements. During the weighing process, the action should be gentle to avoid the reagents flying. Furthermore, storage should also be paid attention to. It should be placed in a cool, dry and well-ventilated place, away from fire and heat sources, to prevent deterioration. After use, the remaining reagents should not be discarded at will, and should be properly disposed of according to regulations to avoid polluting the environment.
The experimental site should also be kept clean and tidy, and the debris on the operating table should be removed so that the experiment can be carried out in an orderly manner. In the event of a reagent leak, do not panic, and emergency measures should be taken immediately. Small leaks can be wiped and collected with a clean cloth; if there are large leaks, it is necessary to
All of these are the important principles for the safety and operation of iodine-nitrotetrazolium blue. Experimenters abide by this rule to ensure the safety of the experiment and the orderly progress of the research.

Application Area

Iodinitrotetrazolium blue (Iodonitrotetrazolium Chloride) is widely used in the field of biochemistry. It plays an important role in the detection of cell viability. When the cell metabolism is active, this agent can be reduced to produce colored nail products. From the depth of color, the strength of cell viability can be inferred.
It can also be seen in the research of plant physiology. Under adversity, the viability of plant cells can be measured by this agent to understand the mechanism of plants coping with adversity. In microbiology, the activity of bacteria and other microorganisms can be detected to explore their growth and metabolism. Studies such as yeast fermentation and bacterial proliferation are used. From this perspective, iodine-nitro-tetrazolium blue is an important tool in the fields of biochemistry, plants, and microorganisms, helping researchers understand the secrets of life and explore the unknown.

Research & Development

The research and application of Iodonitrotetrazolium Chloride is related to academic progress, and it is the focus of my generation of chemical researchers. This agent is used in biochemical exploration and has a wide range of uses. It can be used to test cell activity and detect metabolic changes.
Although it has been studied in the past, there are still many unknowns. Its reaction mechanism remains to be studied in detail; the scope of application is also expected to be expanded. We study day and night, hoping to deepen our understanding and understand its subtlety.
Today, the scientific research environment is better and the technology is new. Our generation should use advanced methods to expand the application of this agent. Or in pharmaceutical research and development, or in environmental monitoring, so that its potential can be fully developed. With unremitting efforts, we hope to achieve major breakthroughs and contribute to chemical research and development, thus promoting its long-term development.

Toxicity Research

When physicians talk about medicine, it is related to life, and they are very careful. Today there is a thing named Iodonitrotetrazolium Chloride, which is particularly important in the study of toxicity. The nature of this thing should not be ignored.
If you want to understand its toxicity, you must investigate it in detail. Or take all things to try, observe their changes, and observe their reactions. If it makes things change, or produces abnormal conditions, it is a sign of toxicity.
Toxicity research is not done overnight. It needs to be accumulated over time and carefully screened. The increase or decrease in dosage and the change of the environment should be recorded in detail. It is hoped that the depth of its toxicity can be revealed, and it will provide a warning for those who use it in future generations to avoid misuse and harm. Therefore, it is not necessary to fulfill the important task of toxicity research.

Future Prospects

Today, there is a chemical substance, known as Iodonitrotetrazolium Chloride, which has already emerged in the field of scientific research. At present, this substance is useful in biochemical testing, medical diagnosis and many other aspects.
However, we look at it with the eyes of researchers, and there is still a broad space for its future development. In terms of detection accuracy, it is expected to be more advanced, able to gain insight into the subtleties and make the results more accurate. In the field of application, it may be extended to emerging fields, such as cutting-edge bioengineering and high-end environmental monitoring.
Furthermore, its synthesis process also has an opportunity to improve. If the process can be optimized, the cost can be reduced and the efficiency can be increased, and it will definitely benefit the world more widely. We are eagerly looking forward to this material shining in the future, contributing to the progress of science and the well-being of mankind, and achieving an extraordinary cause.

Where to Buy Iodonitrotetrazolium Chloride in China?

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Frequently Asked Questions

As a leading Iodonitrotetrazolium Chloride 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 Iodonitrotetrazolium Chloride?

Iodonitrotetrazolium Chloride, its main uses are as follows:
This reagent is often used in experiments in biology and medicine. It has a significant effect on the detection of cell viability and proliferation. When cells have metabolic activity, the dehydrogenase contained in them can reduce iodinitro tetrazolium blue chloride to produce insoluble purple nail products. By measuring the amount of nail products, the viability and proliferation of cells can be accurately measured.
In the field of microbiology, it is also quite useful. It can be used to detect the respiratory activity of microorganisms such as bacteria. Microorganisms with respiratory activity can promote the reduction reaction of iodinitro tetrazolium blue chloride. By observing the reaction phenomenon, it is helpful to understand the metabolic characteristics and activity of microorganisms.
is also used in plant physiology research. It can be used to evaluate the cell viability changes of plant tissues under stress conditions. For example, when plants are subject to stress such as drought and high temperature, the reduction ability of plant tissues to iodine-nitro-tetrazolium blue chloride can be detected to determine the degree of cell damage and explore the stress resistance mechanism of plants.
And it is sometimes used in immunohistochemical technology. It can be used to localize and qualitatively analyze specific antigens in tissues or cells through the color changes produced by its reaction with specific enzymes, which can help researchers to deeply understand the physiological and pathological processes in organisms.

What are the physical and chemical properties of Iodonitrotetrazolium Chloride?

Iodonitrotetrazolium Chloride is a very important chemical substance. Its physical properties are unique. Under normal conditions, it appears as an orange-yellow to red crystalline powder. This substance has good solubility, can be dissolved in water, and can also be dissolved to a certain extent in organic solvents such as ethanol.
Looking at its chemical properties, iodinitro tetraazole blue chloride has redox properties. In a specific reaction system, it can be used as a redox indicator. When the redox potential of the environment changes, its own chemical structure will change accordingly, resulting in significant changes in color. In general, under reduced conditions, the substance will be reduced to insoluble Formazan products, which makes it very useful in many fields of biological and chemical testing.
In biological experiments, it is often used to detect cell viability and enzyme activity. Because living cells have the ability to reduce the substance, the metabolic activity of cells can be inferred by observing the amount of purple Formazan products generated. In addition, in some microbiological experiments, it can also be used to identify the metabolic type of specific microorganisms, and to distinguish different microorganisms according to the difference in their reducing ability. In short, iodine-nitro-tetrazolium blue chloride plays an indispensable role in many scientific research fields due to its unique physicochemical properties.

What are the precautions for Iodonitrotetrazolium Chloride during use?

Iodinitrotetrazolium blue chloride (Iodonitrotetrazolium Chloride), in the experimental application, there are many matters to pay attention to.
First, its dissolution is quite critical. This is due to the dissolution of the substance, which is related to the follow-up experimental results. Appropriate solvents should be selected. Generally speaking, organic solvents such as dimethyl sulfoxide (DMSO) are often a good choice. When dissolving, it is necessary to slowly add and stir well to promote uniform dissolution. Beware of agglomeration, which makes it difficult to completely dissolve and affects the accuracy of the experiment.
For the second time, the storage conditions should not be underestimated. It should be stored in a cool, dry and dark place. If exposed to high temperature or strong light, it is easy to cause its decomposition and deterioration, reducing its activity. And it needs to be sealed and stored to prevent it from reacting with moisture, oxygen and other substances in the air and damaging its chemical properties.
Furthermore, during the experimental operation, the dosage must be precisely controlled. Too much or too little dosage will cause deviation in the experimental results. It is necessary to measure accurately according to the specific experimental plan and expected effect. And when mixing with other reagents, pay attention to the order of addition and mixing method to avoid abnormal chemical reactions caused by improper operation and affect the reliability of the final experimental data.
In addition, because of its certain toxicity and irritation, protective measures should be taken during operation. Experimenters need to wear experimental clothes, gloves and goggles to prevent contact with the skin or splashing into the eyes, causing damage to the body. After the experiment is completed, properly dispose of the remaining reagents and waste, follow relevant environmental regulations, and do not discard them at will to avoid polluting the environment.

What is the market price range for Iodonitrotetrazolium Chloride?

The market price range of Iodonitrotetrazolium Chloride varies depending on quality, specification, supply and demand. In the context of "Tiangong Kaiwu", although there is no exact record of this chemical, it can be compared to the pricing of the goods.
At present, if this chemical reagent is of ordinary laboratory grade, the purity is about 95%, and the price per gram may be in the tens of yuan. If the purity is higher, up to 98% or more, it is used for fine experiments or pharmaceutical research and development, and the price per gram may exceed 100 yuan. If purchased in bulk, the order of kilograms, the price will be reduced due to the large quantity, and the price will be reduced to less than tens of yuan per gram.
If the preparation process is complicated, the raw materials are scarce, or the market demand increases greatly and the supply is insufficient, the price will rise. On the contrary, if the process is refined, the raw materials are abundant, and the supply is excessive, the price may drop. The market price range of iodine nitrotetrazole chloride fluctuates, the gram constant is ten yuan to more than 100 yuan, and the batch is within ten yuan per gram or tens of yuan.

What are the advantages of Iodonitrotetrazolium Chloride compared to other similar products?

Iodonitrotetrazolium Chloride has significant advantages over other similar products.
First, the sensitivity is quite high. During the detection process, even the slightest changes in this substance can be keenly sensed and presented, just like the ancient Sinan, the breeze blows, the pointer turns flexibly, and it is difficult to escape the "eye" of the slightest change. It can accurately detect subtle changes in many biochemical reactions, making the detection results accurate.
Second, the stability is very strong. Like a sturdy fortress, it can still maintain its own stability in the face of many complex environmental factors such as external temperature and humidity, and will not be like fragile tissue paper, which will cause chaos if there is a slight environmental change, thus ensuring that the test results are not disturbed by the outside world and always remain reliable.
Third, good specificity. Just like a precise arrow, it can accurately hit the bullseye, only reacting to specific target substances, while turning a blind eye to other irrelevant substances. This way, the possibility of misjudgment is greatly reduced, and the specificity and reliability of detection are greatly improved.
Fourth, easy to operate. The operation process is simple and clear, and ordinary personnel can master it with a little learning, lowering the threshold for use and making it easier to be widely used. Fifth, the response is fast. Just like the agile cheetah, once the appropriate conditions are triggered, the reaction can be quickly started, and the detection results can be obtained in a short time, without long waiting, which greatly improves the detection efficiency. In the detection scene where every second counts, this advantage is particularly critical.