The main use of 5% - 2% borax is in various fields such as manufacturing, chemical industry, and engineering, and each has its own needs.
In terms of production, it has special effects. Borax has the effects of clearing and detoxifying, eliminating and antiseptic, and can be used externally to treat mouth and throat pain. In ancient times, this product was also often used in ancient China to treat patients. And water can extract beneficial substances, or help in the research and treatment of certain diseases. It has not been well understood, but the value of its content cannot be ignored.
Chemical industry, its use is wide. Borax is an important chemical raw material, which can be used to make glass, ceramics, etc. Make glass have good resistance and transparency, and is used in high-quality glass products. In ceramic work, it can improve the properties of ceramics and increase their hardness. And it can be used in the production of chemical compounds, such as oxidation, chlorination, etc. It is widely used in building materials, metallurgy and other industries, and can be the cornerstone of chemical work.
On top of work, it also has its own function. Borax can be used as a trace element fertilizer, which can fill the soil with boron, promote crop growth and education, and increase the amount of food. Especially for crops such as rape and cotton, boron is indispensable. The amount of application can improve soil acidity, improve soil acidity, and is beneficial to plant root growth and crop resistance.
Therefore, 5% - 2% borax is used in energy production, chemical industry can be used as raw materials, and can be used to help recovery. It has important value in many aspects. It is used by the world and benefits people's livelihood.

The 5-%-2-nitrate is a strange object of heaven and earth, with physical properties. Its surface is often crystalline, and if it is frozen and snow condensed, it is not easy to see. Its color is transparent, and it is also slightly light or light gray.
Its hardness is not high, and it is easy to break when a little external force is applied. This is because its density is slightly higher, and it feels heavy when placed in the hand.
5- %-2-nitrate has characteristics in solubility. When it is dissolved in water, especially in water, it dissolves rapidly. And when it is dissolved in water, the degree of solution is often slightly reduced, which is the appearance of absorption. Its aqueous solution is neutral, not acidic, and can be mixed with various substances.
Furthermore, its performance is good. 5-% 2-nitrate dissolves in water to form a solution and can flow. From the fact that it produces particles in water, the movement of particles then allows the flow to flow.
Qualitatively, 5-% 2-nitrate is good. Under normal conditions, the property is fixed, and it can be self-generated. Even if it is affected, it needs to reach a certain height before decomposition. And in the decomposition process, the specific characteristics are released, accompanied by the transformation of taste and color, which are the special characteristics of its materiality.

5-2-2-water, its chemical properties are very special. This is the mixture of dilute gold and mercury and water.
Mercury, the liquid that is often flowing under the water, such as, has a special flow density, the density is large, and it is easy to disperse. Its chemical activity is determined, but in case of oxidation, it can also cause reaction. Mercury vapor is toxic and can be healthy when inhaled.
Water, is a solution of chlorination and dissolution in water. Chlorination is a solution of chlorine in water. This solution is neutral, and it contains chlorine, which can be freely transferred.
Mercury is mixed with water. Due to the high density of mercury, it sinks at the bottom, and the water is immiscible. The two are separated into two phases. As far as chemical properties are concerned, the chlorination of mercury in water directly reacts, and the gold activity of mercury is affected. The method is inserted from the chlorination. However, if there are other substances involved in the environment, it may lead to chemical reactions.
And the existence of water may affect the surface properties of mercury, such as interface forces. And mercury may also affect some physical properties of water, but these effects are weak. In other words, the chemical properties of 5-2-2-water are the combination of the inherent properties of mercury and water, and under specific conditions, there may be mutual effects, but the direct chemical properties are reversed under normal conditions.

To prepare pentacyanodiammonium, there are three methods.
One is the reaction of ferrous salt with cyanide and ammonia. Take a solution of ferrous salt, such as ferrous sulfate, and slowly drop it into the potassium cyanide solution to obtain a ferrous cyanide precipitate. The reaction formula is: $Fe ^ {2 + } + 2K CN = Fe (CN) _2\ downarrow + 2K ^ + $. This precipitate is then reacted with excess potassium cyanide to generate potassium hexacyanoferrite: $Fe (CN) _2 + 4KCN = K_4 [Fe (CN) _6] $. Then potassium hexacyanoferrite reacts with ammonium sulfate in an ammonia environment to obtain the product. The process needs to pay attention to the pH of the reaction environment. If the acidity is too strong, the cyanogen root is easy to generate hydrogen cyanide and escape, resulting in impure products; if the alkalinity is too strong, ferrous ions are easy to form ferrous hydroxide precipitation, which affects the reaction process.
The second is to use iron salt as the starting material. React the ferric chloride solution with the potassium cyanide solution to form potassium hexacyanoferrate: $FeCl_3 + 6KCN = K_3 [Fe (CN) _6] + 3KCl $. Later, with a reducing agent, such as sodium sulfite, potassium hexacyanoferrate is reduced, and then under ammonia conditions, pentacyanodiamide can be obtained. This process requires controlling the amount of reducing agent. If it is too little, the reduction will be incomplete, if it is too much, impurities will be introduced, and the reaction temperature should also be paid attention. If it is too high or too low, it will not be conducive to the reaction.
The third is the use of coordination substitution reaction. The obtained iron complex containing other ligands is used as the substrate, and under appropriate conditions, the original ligand is replaced by cyanogen ion and ammonia molecule to generate pentacyanodiamide iron. This method requires extreme attention to the selection of substrates and the optimization of reaction conditions. The stability of the substrate, the nature of the reaction solvent, and the reaction time all affect the formation and purity of the product.
All these methods require fine operation and attention to the control of various reaction conditions in order to obtain pure pentacyanodiamide iron.

When storing and transporting 5-mercury-2-bromoethane thallium, all kinds of precautions are essential, which are related to personal safety and material preservation, and should not be ignored.
First storage environment. Must choose a dry, cool and well-ventilated place, avoid direct sunlight, and cause its properties to change due to Duin temperature, humidity and light. Mercury and bromoethane thallium have special chemical properties, and factors such as temperature, humidity and light may cause chemical reactions, which can damage their quality or even be dangerous. Both are toxic. If they leak due to environmental discomfort, they will harm the surroundings.
Second word packaging. The packaging must be firmly sealed to prevent leakage and escape. Choose suitable material packaging, such as corrosion-resistant containers, to meet safety standards. Mercury is a liquid metal that is easy to flow and penetrate. If it is not packaged properly, it will leak. Thallium bromide must also be tightly sealed. Due to its toxicity, a slight leakage will endanger the environment and people.
When transporting, strictly abide by laws and regulations. There are special procedures for the transportation of such dangerous substances, from the selection of vehicles to the planning of transportation routes, all follow the law. Select approved vehicles, escort them with professional personnel, and be familiar with emergency handling. The route avoids densely populated areas and sensitive environmental receptors to reduce the risk of leakage.
Personnel protection is also key. Contact persons must wear professional protective equipment, such as gas masks, protective clothing, gloves, etc. This can isolate poisons and reduce the risk of exposure and absorption. If not properly protected, it can enter the body through breathing and skin, causing serious health damage.
Emergency preparedness is essential. Storage and transportation sites are equipped with emergency materials and equipment, such as adsorbents, neutralizers, so that they can be dealt with quickly in the event of a leak. Personnel should also be familiar with the emergency process. In the event of a leak, they can quickly start the emergency response, control the situation, and reduce losses.