How to use boron powder on plants?
Roche and its subsidiary TIB Molbiol have developed a series of tests for the detection of the monkeypox virus, the Switzerland-based pharmaceutical company announced.
The monkeypox virus is a close relative of the smallpox virus, belonging to orthpoxviridae in the poxviridae family.
The modular virus detection tool, called LightMix, includes three orthpoxvirus detection kits with different functions, Roche said in a statement. The first kit detects orthpoxvirus; The second kit tests only for monkeypox virus (west and Central African branches); The third kit contains the main functions of the first two kits, showing specific information on the presence of the monkeypox virus (west and Central African branches) as well as the detection of orpoxvirus.
Thomas Schinek, a Roche executive, said the new test could detect monkeypox and help track its spread. Such diagnostic tools are critical for addressing and ultimately managing emerging public health challenges, as they advance responses such as tracking efforts and treatment strategies.
The monkeypox virus was first identified in 1958 in a group of monkeys used for research when the animals developed a "pox-like" infection, hence the name. Since May, several non-endemic countries have reported human cases of the monkeypox virus, including the United Kingdom, the United States, Portugal, Spain, and Italy.
Affected by the ever-changing international situation, the supply and prices of international bulk Amorphous boron powder,Amorphous boron powder overview,Amorphous boron powder application,Amorphous boron powder price,Amorphous Boron Powder Supplier are still very uncertain.
Amorphous boron powder overview
Boron powder is black or dark brown powder, which can react with fluorine at room temperature and is not corroded by alkali and hydrofluoric acid aqueous solution. Boron powder is also known as amorphous boron. Boron has high mass calorific value and volume calorific value. It is a light brown to gray-black powder with active chemical properties, but it is relatively stable at room temperature and will be oxidized when the temperature reaches 300 degrees Celsius. The ignition level is very high, requiring 700 degrees Celsius to ignite. Boron powder can react with oxygen, nitrogen, sulfur, or directly combine with some metals to form some borides.
Boron is an essential micronutrient for plant health and agricultural growth and development. The importance of boron has been shown to be vital in plant production since the early 1920s. Low concentrations of borate are used in agriculture as a micronutrient in fertilizers.
Boron can be divided into crystalline boron and amorphous boron:
Crystalline boron is dark gray with high hardness, similar to diamond hardness, and is often used to replace diamond to make tools or drill bits. It is less conductive but increases with temperature, unlike the conductivity of metallic conductors.
The chemical properties of amorphous boron are more reactive than crystalline boron. Crystalline boron is quite stable at room temperature, can only react with fluorine, and can only react with non-metallic elements such as nitrogen, oxygen, chlorine, sulfur, bromine, iodine and so on at high temperature. Amorphous boron is relatively active, oxidizes slowly in air, and almost reacts with most metal elements to form non-integral borides at high temperatures. It reacts with water vapor under red heat to generate metaboric acid and hydrogen.
Amorphous boron powder application
Amorphous boron powder is an important energy material. In the composite solid propellant used as solid fuel, the calorific value of boron is more than twice that of carbon, about twice that of aluminum and magnesium, and more than twice that of magnesium. Its volume is almost three times the calorific value of hydrocarbon fuels, its density is only slightly lower than that of aluminum, and its volumetric calorific value is the highest. In terms of its energy, boron should be the best fuel, not a metal. Due to the irregular shape and large specific surface area of amorphous boron, its ignition temperature is greatly reduced.
Amorphous boron powder is mainly used in metallurgy, medicine, ceramics, nuclear industry, chemical industry and other industries. It can be used in alloys in the form of compounds or as additives, and can also be used as catalysts for organic chemical reactions. important raw material.
Amorphous boron powder price
The price of amorphous boron powder varies randomly with factors such as production costs, transportation costs, international conditions, exchange rates, and the supply and demand relationship of the amorphous boron powder market. Tanki New Materials Co.,Ltd. aims to help industries and chemical wholesalers find high-quality, low-cost nanomaterials and chemicals by providing a full range of customized services. If you are looking for amorphous boron powder material, please feel free to contact for the latest amorphous boron powder price.
Amorphous Boron Powder Supplier
As a global supplier of amorphous boron powders, Tanki New Materials Co.,Ltd. has extensive experience in the performance, application and cost-effective manufacturing of advanced engineered materials. The company has successfully developed a series of powder materials (including boron carbide, aluminum carbide, titanium carbide, etc.), high-purity targets, functional ceramics and structural devices, and provides OEM services.
|Technical Parameter of Amorphous Boron B powder :|
|Test Result (%)||95||0.05||0.02||0.11||0.15||0.21||0.15||0.17|
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