N'-HYDROXY-4-PYRIDINECARBOXIMIDAMIDE

N '-HYDROXY-4-PYRIDINECARBOXIMIDAMIDE is an organic compound. This substance has its uses in many fields.
In the field of medicine, it may have potential pharmacological activity. Or it can be used as a lead compound for drug research and development. Scientists hope to use it as a basis to explore and modify in order to produce new drugs with curative effects on specific diseases. For example, in the fight against some difficult diseases such as tumors and inflammation, through the adjustment and research of its chemical structure, it may be possible to develop drugs that can precisely act on relevant pathogenic targets and help patients recover.
At the level of scientific research and exploration, it can be an important raw material for organic synthetic chemistry. Chemists can carry out various organic reactions according to their unique chemical structures to synthesize compounds with more complex structures and more specific functions. This not only helps to expand the knowledge boundary of organic chemistry, but also provides possible basic materials for the research and development of new materials.
It is also used in agriculture and other fields. Although its application may not be as extensive as that of medicine and scientific research, it still has potential uses. For example, new plant growth regulators may be developed to regulate the process of plant growth and development, and help improve agricultural production and quality.
In short, although N '-HYDROXY-4-PYRIDINECARBOXIMIDAMIDE is a compound, it has important value and potential application prospects in medicine, scientific research, agriculture, etc. It is indeed something that cannot be underestimated.

The safety of N '-hydroxy-4' -pyriformamidine is related to many. This substance is occasionally used in industry and scientific research, but its safety must be carefully reviewed.
Looking at its chemical properties, the combination of hydroxyl groups and pyriformamidine in the structure may make the chemical activity different. The presence of hydroxyl groups can lead to oxidation, nucleophilic and other reactions, and the part of pyriformamidine interacts with biological macromolecules such as proteins and nucleic acids in a biochemical environment. This interaction may be beneficial, or cause cytotoxicity, genetic toxicity, etc.
In the context of experiments, study it in a cell model to observe its effects on cell growth, proliferation, and apoptosis. It has been shown that at high concentrations, cell growth is inhibited and the apoptosis rate rises. This may be due to substances interfering with the normal metabolic pathways of cells, such as affecting energy metabolism and signal transduction pathways. However, at low concentrations, there may be no significant cytotoxicity, or even the appearance of promoting cell growth. This may be due to moderate stimulation of cell stress response and stimulation of self-repair mechanism.
In addition, the safety of animal models is explored. Oral intake, inhalation or skin contact and other pathways, the overall response of animals is observed. Experiments show that large intake, animal weight loss, organ such as liver, kidney, etc. may present pathological changes, or due to substance metabolism in the body, product accumulation causes organ damage. The skin contact or inhalation may cause local irritation, such as skin redness and swelling, respiratory inflammation, etc.
Consider its safety in the environment. If this substance flows into the environment, in water, soil, or through hydrolysis, photolysis, etc. The hydrolysis products may have different chemical and toxicity, and may affect the microbial community and disrupt the ecological balance. The photolysis process may also produce new chemicals, and its environmental impact should not be ignored.
In summary, the safety of N '-hydroxy-4-pyriformamidine cannot be hidden in a word. Concentration, target of action, route of action and environmental factors are all related to its safety. When using it, take precautions and study its latent risks in detail to avoid harm.

"N '-HYDROXY-4-PYRIDINECARBOXIMIDAMIDE" is a chemical substance, commonly referred to as 4-hydroxypyridine formamidine. Its preparation process is quite critical in the field of chemical synthesis. The following is the ancient classical style of simulating "Tiangong Kaiwu", and its production process is briefly described.
To make 4-hydroxypyridine formamidine, 4-pyridine carboxylic acid is often used as the starting material. First, 4-pyridine carboxylic acid is placed in a specific reactor, accompanied by an appropriate amount of reagents, or thionyl chloride, etc., to carry out the reaction of acylation chlorination. In this step, the temperature and reaction time in the kettle need to be carefully controlled to promote the formation of 4-pyridinoyl chloride.
When 4-pyridinoyl chloride is formed, it is moved into a new kettle, and ammonia or amine substances are added to make it 4-pyridinoformamide. This process, the pH of the reaction environment and the temperature are all about the process of the reaction and the purity of the product.
Then, 4-pyridineformamide and hydroxylamine reagent are co-placed in the kettle, and the amide group reacts with hydroxylamine under suitable reaction conditions, such as temperature control in a certain range, or supplemented by catalysts, and is converted into N '-hydroxy-4-pyridineformamidine.
After the reaction is completed, the product often contains impurities, so it is necessary to separate and purify, such as recrystallization, column chromatography, etc., to obtain pure 4-hydroxy pyridineformamidine. During recrystallization, a suitable solvent is selected, heated and dissolved, and then cooled to crystallize; column chromatography is based on the different behaviors of the product and impurities in the stationary and mobile phases to separate and purify.
Every step in the preparation of this substance is critical to success or failure. The reaction conditions, the ratio of materials, and the fineness of the operation should not be ignored, so that the high-quality 4-hydroxypyridine formamidine can be obtained.

I look at the price range of "N -HYDROXY-4-PYRIDINECARBOXIMIDAMIDE" you are inquiring about on the market. This is a rather professional price inquiry for chemical substances. However, the market price often changes for many reasons, and it is difficult to determine the exact price.
If this substance is traded in ordinary chemical reagents, its price may vary depending on purity, origin, and supplier. For high purity, the price may be high; for ordinary purity, the price may be slightly lower. If the origin is different, it is shipped from a distance, and the price is also different due to freight, etc. The pricing strategy of the supplier is also the key, either small profits but quick turnover, or large profits.
However, if you want to know the actual price, you should go to the market where chemical reagents are traded and the online chemical product trading platform for details. You can consult multiple suppliers to obtain different quotations and refer to each other for details to know the approximate price range. Or you can ask the merchants and experts who are familiar with chemical substance trading for advice. They have been involved in this industry for a long time and can solve this confusion for you due to price trends, market changes, or knowledge.

N '-Hydroxy-4' -pyriformamidine, this is a special chemical substance, and its related Quality Standards are quite critical, which is related to many practical applications.
The purity of N '-hydroxy-4' -pyriformamidine can play its ideal role in the fields of medicine and chemical industry. If the purity is insufficient, or impurities can interfere with the reaction process and affect the quality of the product. Generally speaking, in the synthesis of fine chemicals, the purity is often required to reach more than 98%, so as to ensure the stability and efficiency of the subsequent reaction.
Furthermore, the limit of related substances cannot be ignored. The so-called relevant substances refer to impurities generated during the synthesis process, such as isomers, by-products, etc. Such substances may affect the properties and activities of the main components. Therefore, their limits must be strictly controlled. For example, the content of specific impurities should not exceed 0.1% to prevent it from adversely affecting the efficacy and safety of the main components.
Moisture content is also an important Quality Standard. Excessive moisture may cause deliquescence of substances, affecting their stability and reactivity. It is usually stipulated that the moisture content of N '-hydroxy-4-pyriformamidine should be less than 0.5%, so as to ensure its quality stability during storage and use.
In addition, the melting point range is also an important basis for judging its quality. Pure N '-hydroxy-4' -pyriformamidine should have a specific melting point range, such as [specific melting point range]. If the melting point deviates from this range, or implies a change in its purity or crystal form, it will affect its performance.
The above Quality Standards play an indispensable role in the production, storage and application of N '-hydroxy-4' -pyriformamidine, and must be strictly controlled to ensure its quality and performance.