The main use of the Three Gorges methyl realgar is particularly important. This medicine is involved in various uses, such as medical and alchemy.
In terms of medical medicine, ancient healers may use it to treat diseases. Because the Three Gorges methyl realgar has the equivalent of drying dampness and removing phlegm, intercepting malaria and detoxifying. In the past, when epidemics were rampant, doctors used its formula to cure the plague, so that the sick could be protected from the plague. In case of malaria with cold and heat, it can also use its medicinal power to reconcile yin and yang, remove evil spirits and go out, and relieve the suffering of the sick.
In the art of alchemy cultivation, the Three Gorges methyl realgar also has a place. Taoist alchemists believe that realgar scriptures can be skillfully refined into pills. It is based on realgar, combined with all kinds of gold stone medicines, and calcined by fire according to the principle of yin and yang and five elements, hoping to refine the elixir of longevity. I think this elixir can prolong life, strengthen the body, and even become immortals. Although its efficacy may be exaggerated, it is of great significance in the cognition of the ancients.
It also has the use of warding off evil spirits and praying for blessings. The ancients believed in the saying of ghosts and spirits, thinking that the Three Gorges methyl realgar could eliminate evil spirits. Every New Year's holiday, or when a new house is built, realgar is often sprinkled around the house, and things containing realgar are hung indoors, hoping to use its pure yang qi to drive away the evil spirits, keep the house safe, and people and animals go smoothly.
Therefore, the use of the Three Gorges methyl realgar is related to the healing of the medical way, the cultivation of alchemy and the pursuit of immortality, and the prayer of folk customs to ward off evil spirits. It occupies a very important position in the life and cognitive system of the ancients.

The physical properties of methylarsenic in Sanchuan are quite different from those of ordinary things. The color of this substance is light yellow, and it is seen as slightly dyed by autumn light. The quality is often crystalline and lustrous, like the frost of a cold night. Under the light, it refracts and shines brightly, and it is bright and impressive.
What is its taste? The smell has a faint smell, not a pungent stench, nor a pleasant fragrance. It is like a faint breath hidden in the depths of a secluded forest, which is indescribable. Touch it and feel it is brittle, but with a little force it can be broken like powder, and the dust is scattered, like fine sand falling to the ground.
As for its density, it is heavier than water. If it is thrown into water, it will sink to the bottom, like a stone falling into an abyss, the water waves will ripple slightly, and it will flatten immediately. And its melting point is also special. Under moderate temperature, it gradually melts like a yelp, turns into a liquid, and the flow is soothing, just like melting ice in spring. However, this temperature is comparable to the heat of an unusual summer, and it needs to be precisely controlled.
In addition, the solubility of Sanchuan methyl arsenic is also unique. In water, its solubility is very small, just like a lone boat in the sea, only a little can be melted; while in specific organic solutions, such as ethers and alcohols, it is soluble. After miscibility, the liquid color is clear, and there is no residue. Like salt in soup, it is seamless. All these physical properties are the characteristics of Sanchuan methyl arsenic, and it is also the key to exploring the mysteries of this substance.

The chemical properties of trichloromethyl silicon are quite stable. Trichloromethyl silicon, in its molecular structure, silicon atoms are connected to three chlorine atoms and one methyl group. Chlorine atoms have strong electronegativity and strong attractiveness to electrons, making silicon-chlorine bonds have strong polarity. However, the outer electronic structure of silicon atoms enables it to form a relatively stable chemical bond system with chlorine atoms.
From the perspective of reactivity, although silicon-chlorine bonds can undergo reactions such as hydrolysis, under general conditions, without specific catalysts or strong reaction conditions, the hydrolysis reaction is not easy to proceed rapidly. In many organic synthesis reaction systems, trichloromethyl silicon can remain relatively stable as long as the environment is relatively mild and no reagents that can significantly promote the reaction are introduced.
In terms of storage, if it is placed in a dry, sealed environment without interference from active reagents, it can maintain chemical stability for a long time without obvious chemical changes. Even in a conventional laboratory environment, as long as it is properly stored to avoid contact with water, active metals and other substances that can easily initiate reactions, trichloromethyl silicon can maintain its own chemical structure and properties.
In summary, trichloromethyl silicon is chemically stable in common, relatively mild environments and conditions, and is not prone to spontaneous violent chemical reactions that change its own structure and properties.

The preparation methods of Sanxiang methyl silicon are as follows:
First, the silicon powder is collected and the halogenated methane is reacted under the copper catalyst. This is a common method. High-purity silicon powder and halogenated methane, such as chloromethane, are placed in a special reactor, and an appropriate amount of copper catalyst is added. Strict temperature control makes the temperature in the kettle reach a suitable environment, usually between hundreds of degrees Celsius. Under the catalyst of this temperature and copper catalyst, the silicon powder reacts violently with halogenated methane to form Sanxiang methyl silicon and other by-products. Then, through delicate separation and purification techniques, impurities are removed to obtain pure Sanxiang methyl silicon. This process requires fine control of temperature, pressure, and the proportion of reactants. If there is a slight difference, the purity and yield of the product will be affected.
Second, the silane is reacted with a methylating reagent. First take the silane, which has high activity. Then choose a suitable methylating reagent, such as methyl lithium, etc. Mix the two in a specific organic solvent, and react slowly under a low temperature and inert gas protection environment. Due to the strong activity of silane, the reaction is easy to get out of control, so low temperature and inert gas protection are extremely critical. After the reaction, the target product Sanxiang methyl silicon is separated through a series of treatments, such as distillation and extraction. This approach requires strict reaction conditions, but can obtain high-purity products.
Third, the synthesis method involving organometallic compounds. A silicon-containing organometallic compound is used as a starting material to react with a specific methylating agent. For example, a silicon-based Grignard reagent is used to react with a methyl halide. In an anhydrous and oxygen-free environment, using ethers as solvents, the two meet to undergo a nucleophilic substitution reaction to form a carbon-silicon bond, thereby forming Sanxiang methyl silicon. After the reaction is completed, regular separation and refining steps are followed to obtain the finished product. This method requires attention to anhydrous and oxygen-free operation, otherwise the raw material is easily deactivated and affects the reaction process and product quality.

Sanxiang methyl ether naphthalene, when storing and transporting, there should be a lot of attention.
When storing, the temperature and humidity of the environment are the first priority. This medicine has a specific temperature and humidity tolerance range. If the temperature is too high, or its volatilization will increase, and the efficacy will be reduced; if the humidity is too large, it will easily be damp and deteriorated. Therefore, it should be placed in a cool and dry place, and the temperature should be controlled in a suitable range to ensure its quality and stability.
Furthermore, it must be protected from direct light. Light can cause photochemical reactions to occur, causing changes in ingredients and inaccurate efficacy. Therefore, the storage place should be protected from light or stored in a shading container.
It may have certain chemical activity and is easy to react with other substances. Therefore, during storage, it should not be stored in the same place as drugs and chemicals that can have adverse reactions with it to prevent mutual influence and quality deterioration.
As for transportation, the choice of vehicle is the key. The selected vehicle should have good sealing and thermal insulation performance to avoid the intrusion of external temperature, humidity, light and other adverse factors. And during transportation, it is necessary to prevent bumps and vibrations. If the vibration is too severe, it may cause package damage, drug loss, or affect its internal quality.
The planning of the transportation route should not be ignored. Areas with high temperature, high humidity and high pollution should be avoided, and the transportation time should be appropriate. It should not be delayed for a long time to prevent the drug from deteriorating due to long time. At the same time, the transportation personnel should understand the characteristics of the drug and handle it properly in case of emergencies to ensure the safety of transportation and the quality of the drug.