1,2-Bis(1H-imidazole-1-yl)ethane-1,2-dione

1% 2C2 - Bis% 281H - imidazole - 1 - yl% 29ethane - 1% 2C2 - dione is the English expression of chemical substance, and its corresponding Chinese name is 1,2 - bis (1H - imidazole - 1 - yl) ethane - 1,2 - dione. The chemical properties of this substance are quite unique and have many characteristics.
Looking at its structure, it contains two imidazole groups and dione structures, and this structural feature gives it unique chemical activity. In terms of reactivity, the nitrogen atom in the imidazole group is rich in electrons and is easy to participate in various chemical reactions. In case of electrophilic reagents, nitrogen atoms can provide electron pairs to react with them, exhibiting nucleophilicity. Because of its two imidazolyl groups, which can participate in the reaction at different check points, it can be used as a polyfunctional reagent to construct complex organic molecular structures.
Furthermore, the diketone structure also has its chemical properties. The presence of carbonyl groups allows the substance to undergo reactions such as nucleophilic addition. Nucleophilic reagents are prone to attack carbonyl carbons, causing structural changes and new bonds to form.
In addition, under specific conditions, the substance may undergo reactions such as intramolecular rearrangement and cyclization, which are caused by the interaction of various groups in the molecule and the space effect. Due to its structural particularity, it may play an important role as a key intermediate in some organic synthesis scenarios, assisting in the synthesis of organic compounds with specific structures and functions.
In the field of chemical research, the exploration of the chemical properties of 1,2-bis (1H-imidazole-1-yl) ethane-1,2-dione will help to expand organic synthesis methods, develop new organic materials, and contribute to the development of chemical science.

1% 2C2 - Bis% 281H - imidazole - 1 - yl% 29ethane - 1% 2C2 - dione is 1,2 - bis (1H - imidazole - 1 - yl) ethane - 1,2 - dione. Common uses of this substance are as follows:
First, in the field of pharmaceutical chemistry, it is often used as an intermediate in organic synthesis. Because it contains a specific functional group structure, it can participate in a variety of chemical reactions and help build complex drug molecular structures. If it is linked to other active groups through a series of reactions, it can obtain specific pharmacologically active compounds, laying the foundation for the development of new drugs.
Second, in the field of materials science, it can be used to prepare functional materials. By polymerizing with other monomers or modifying the surface of the material, the material is endowed with unique properties. Such as bonding with polymer materials to improve material stability, biocompatibility, etc., it has potential applications in biomedical materials, high-performance polymer materials, etc.
Third, in the field of organic catalysis, due to the basic and coordination ability of imidazole groups, 1,2-bis (1H-imidazole-1-yl) ethane-1,2-dione may act as an organic catalyst to catalyze a variety of organic reactions, such as nucleophilic substitution, cyclization, etc. Compared with traditional metal catalysts, it may have the advantages of environmental friendliness, easy preparation and separation.
Fourth, in biochemical research, it can be used as a bioactive probe. Using its structure to interact with specific parts of biomolecules, explore the relationship between the structure and function of biomolecules, help understand complex biochemical processes in organisms, and provide powerful tools for life science research.

To make 1% 2C2 - Bis% 281H - imidazole - 1 - yl% 29ethane - 1% 2C2 - dione, you can follow the following ancient method.
Take an appropriate amount of imidazole first and place it in a clean kettle. Prepare the ethane derivative containing dicarbonyl, pour it slowly into the kettle, and mix it with imidazole. During this time, the temperature must be carefully controlled to allow it to react under a suitable heat. If the temperature is too high, the secondary should be clumped and the product is impure; if the temperature is too low, the reaction will be slow and time-consuming.
When reacting, an appropriate amount of catalyst may be added to promote the reaction speed. The amount of catalyst, when accurately weighed, is often hindered by the quality of the product, and at least it is difficult to achieve the expected effect.
After the reaction is completed, the product can be separated by a suitable method. Filtration can be used first to remove its insoluble impurities; then distillation can be used to purify the product, except for other miscible substances.
After purification, the product still needs to be carefully tested. Observe its properties, measure its melting point, boiling point and other physical constants, and use spectroscopy to investigate its structure in detail to confirm that the obtained product is exactly 1% 2C2 - Bis% 281H - imidazole - 1 - yl% 29ethane - 1% 2C2 - dione.
So, follow this ancient method and proceed with caution to obtain this product.

1% 2C2 - Bis% 281H - imidazole - 1 - yl% 29ethane - 1% 2C2 - dione is a chemical substance. However, its safety is related to many aspects.
The toxicity of this substance needs to be investigated in detail. If it enters the human body, it may have different effects through mouth, inhalation or skin contact. In animal experiments, if large doses are given orally, it may cause organ damage, such as abnormal liver and kidney function. Inhalation of its dust or vapor, or irritation of the respiratory tract, causing cough, asthma, etc. Skin contact, or cause allergies, redness, swelling, itching.
Furthermore, its environmental safety cannot be ignored. In the natural environment, if released, it may affect aquatic organisms, soil microorganisms, etc. In water bodies, or change the balance of aquatic ecosystems, affecting the survival and reproduction of fish and algae. In soil, or interfere with the metabolism and activities of microorganisms in soil, thereby affecting plant growth.
However, its safety is also closely related to the dose. Small dose exposure, or the human body can metabolize itself, will not cause serious consequences. However, long-term, large-scale exposure, the harm is greatly increased.
Repeated, its stability is also related to safety. If under extreme conditions such as high temperature, strong acid and alkali, or decomposition and reaction occur, more dangerous substances are generated. Therefore, when storing, it is necessary to choose a suitable environment, high temperature avoidance, fire sources and strong acid and alkali substances.
In conclusion, the safety of 1% 2C2 - Bis% 281H - imidazole - 1 - yl% 29ethane - 1% 2C2 - dione requires comprehensive consideration of toxicity, environmental impact, dose and stability factors to ensure the safety of humans and the environment.

1% 2C2 - Bis% 281H - imidazole - 1 - yl% 29ethane - 1% 2C2 - dione is the name of the chemical substance, but it is difficult to determine the price range in the market. There are many factors affecting the price of this substance, such as the quality of the quality, the situation of supply and demand, the distance of the origin, the difficulty of preparation, and various variables, all affect its price.
According to the "Tiangong Kaiwu", although it is detailed in all kinds of process products, it is difficult to involve the price of such fine chemicals. At that time, the chemical process was not yet in today's situation, and these substances may not yet be available in the market.
In today's world, if this substance is a common chemical raw material with ordinary quality and abundant supply, its price may be relatively easy; if it is of high quality, used in special fields, and the preparation is difficult and the demand is strong, the price will be high. Or it ranges from a few yuan to tens of yuan per gram, which is also unknown. However, if you want to know the exact price range, you must check the chemical product trading platform in detail and consult the merchants in the industry before you can get it. This is only the price of the past, and the actual price will vary from time to place, making it difficult to generalize.