3-pyridinemethanol, 6-methoxy-

6-Methoxy-3-pyridyl methanol has unique chemical properties. Its properties may be white to light yellow crystalline powder, which is relatively stable at room temperature and pressure.
In terms of solubility, it may have good solubility in polar organic solvents, such as methanol and ethanol, because there are polar groups such as hydroxyl and methoxy in the molecule, which can form hydrogen bonds and interact with polar solvents. However, in non-polar solvents, such as n-hexane, toluene, etc., the solubility may be poor.
From the perspective of chemical activity, hydroxyl groups have certain nucleophilic properties and can participate in esterification reactions. When encountering carboxylic acids or their derivatives, under the action of suitable catalysts, corresponding ester compounds can be formed. The presence of methoxy groups can affect the electron cloud density of the pyridine ring and change the activity of the electrophilic substitution reaction of the pyridine ring. Usually, methoxy is an electron donor group, which can increase the density of the electron cloud of the pyridine ring adjacency and para-position relatively, and the electrophilic reagents are more likely to attack this position.
In addition, the nitrogen atom of the pyridine ring has lone pair electrons, which are alkaline and can react with acids to form pyridine salts. This property is either used for the separation and purification of the substance or for the catalysis of specific reactions. Its chemical properties make it have potential application value in the field of organic synthesis or pharmaceutical chemistry, and can be used as a key intermediate to participate in the construction of complex compounds.

3 - + - pyridyl methanol, 6-methoxy This substance has a wide range of uses and has its own impact in many fields.
In the field of medicinal chemistry, it can be said to be an indispensable key intermediate. Through ingenious chemical reactions, it can be carved and transformed into a variety of drugs with unique effects like magical craftsmen. For example, antibacterial drugs can resist the invasion of germs like heroic guards; or nervous system-related drugs can regulate the nervous system like precise navigation, and its participation is indispensable, making great contributions to human health.
In the vast world of organic synthesis, it is like a master key, with its unique chemical structure and lively reactivity, it can open the door to the synthesis of many organic compounds. It can dance hand in hand with all kinds of reagents, and under the careful guidance of chemists, it can construct complex and novel organic molecules, which contribute to the vigorous development of organic synthesis chemistry.
In the field of materials science, it has also made a name for itself. When integrated into the preparation process of certain specific materials, it can change the properties of materials like a magic wand. Or enhance the stability of the material, so that it is still as solid as a rock under the erosion of years; or give the material unique optical and electrical properties, so that the material can shine in the field of optoelectronics, and inject new vitality into the research and development of new materials.
It can be seen that 3 - + - pyridyl methanol, 6-methoxy group, although seemingly ordinary, plays an irreplaceable important role in many important fields, like a low-key and bright pearl, exudes a unique and dazzling light.

To prepare 3 - + pyridine methanol and 6 - methoxy group, the following synthesis method can be used.
First, the methoxy-containing pyridine derivative is used as the starting material. First, a specific substitution reaction is performed on the pyridine ring, and under suitable reaction conditions, a functional group that can be converted into a methanol group is introduced at a specific position of the pyridine ring. For example, a suitable halogenation reagent is selected to introduce a halogen atom at the 6 - position of the pyridine ring without affecting the methoxy group. This halogenation reaction requires precise control of the reaction temperature, time and reagent dosage to obtain the ideal yield and selectivity.
Then, the obtained halogenated pyridine derivative is converted into a methanol group. Metal-organic reagents, such as Grignard reagent or organolithium reagent, can be used to react with halogenated pyridine derivatives to form corresponding metal-organic intermediates. Then a suitable electrophilic reagent, such as water or formaldehyde, can be reacted with the intermediate to introduce methanol at the 3-position of the pyridine ring, and the final product is 3 - + pyridine methanol, 6 - methoxy group. In this process, the preparation of metal-organic reagents and the regulation of reaction conditions are extremely critical, and the operating procedures must be strictly followed to avoid side reactions.
Second, the strategy of gradually constructing pyridine rings can also be adopted. The pyridine ring is constructed by multi-step reaction with a small organic molecule containing methoxy group as the starting material, and the methanol group is introduced at a specific position during or after the ring construction is completed. Although this approach is a little complicated, it can flexibly adjust the substitution mode of the pyridine ring, which is conducive to improving the purity and yield of the target product. However, each step of the reaction needs to be carefully controlled, from the purity of the raw material to the optimization of the reaction conditions, all of which cannot be neglected to achieve the purpose of synthesis.

I have no evidence of the exact price range of "3+-+pyridinemethanol, 6-methoxy" on the market. However, if you want to estimate its price, you should consider many ends. If this substance is not commonly available, its preparation may require difficult processes or special raw materials, and the price must be high.
If it is a reagent used in emerging research fields, the price is not cheap due to limited demand and difficult preparation. On the contrary, if the preparation gradually matures, the raw materials are common, the process is simplified, or the demand is greatly increased for large-scale production, the price may drop.
Its use is also heavy. For high-end pharmaceutical research and development, it is related to the synthesis of special drugs, and the price is not cheap for pharmaceutical companies; if it is only used for general chemical experiments, the price may be relatively easy due to competition and versatility.
Furthermore, market supply and demand are the key. There are many applicants and few suppliers, and the price is high; if the supply exceeds demand, the price is depressed.
From this perspective, the price range of "3+-+pyridinemethanol, 6-methoxy" in the market is difficult to determine, ranging from tens of yuan per gram to thousands of yuan per gram. It is possible, depending on the preparation, use, supply and demand.

I don't know what "3+-+pyridinemethanol%2C+6+-+methoxy -" refers to, it seems to be a strange chemical name expression. However, if you want to know the manufacturer of this thing, you need to check the chemical directory, industry information and professional databases in detail.
In the past, you need to visit the manufacturer, or you need to visit the workshop, consult the merchants, you can get one or two clues. Today is different from the past, the Internet is convenient, you can use the chemical product trading platform, where there are many merchants, and there is a lot of information, or you can find the factory that makes this thing.
Or check the industry research report, such reports often contain information on important manufacturers in the industry, and mention the manufacturer of this product. Chemical industry associations can also help, and they are familiar with the situation in the industry and may be able to guide one or two. < Br >
However, since I don't know what specific chemical it is, it is difficult to specify the exact manufacturer. It is easier to find if you can detail its general name, properties, etc. You can describe it in detail so that I can find a more accurate answer for you.