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Lithium-nitride, a metal nitrogen compounds, is chemical formula Li3N. This purple or red crystalline liquid has a green luster when reflected, and a ruby hue in transmitted lighting.
Purity: 99.99%
Particle Size: -100 Mesh
Lithium Nitride Li3N Pulp:
Li3N compound lithium-nitride and trilithium nickel nitride are and respectively. It is a rapid ionic conductor and has a conductivity that is greater than any other inorganic or organic lithium salts. A lot of research has been done on the lithium nitride compounds for use as an electrode and cathode material in batteries.
Is Li3N the right name?
Lithium trioxide, also known as Li3N is actually Lithium nitride.
Fast ion conductor materials should possess higher decomposition potentials, lower electronic conductivity and greater chemical stability.
Can lithium nitride be burned in the air?
The Group’s unique Lithium reacts with air nitrogen to create lithium nitride, which is also unique. When heated in the air, lithium emits a reddish flame. It can produce special Ion equipment if heated in the air.
What kind of bond is lithium Nitride?
Lithium Nitride (Li3N), ionic bonds:
Is Li3N covalent or ionic?
Lithium-nitride can be described as an ionic compound. Li’s electronegativity is 0.98, while that of nitrogen is 3.04. It has been suggested that lithium fast ion conducting materials could be used to construct large-scale energy storage systems (electrical) reactors. If the peak hours for electricity consumption are at night in large cities, excess electricity can then be converted into energy storage stations. You can supply continuous power to the grid even during peak hours of electricity consumption. Due to the many applications potential of lithium-fixed ion conductors people have taken great care in their research.
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What is Lithium Nitride Li3N Pulp Produced From?
At the end of 19th century, lithium nitride’s discovery was made. The element can then be combined to make it easily. Zintl and Brauer discovered that lithium nitride crystals have a hexagonal structure. This was done in 1935. 2 is The charge of lithium-nitride. This structure was first defined by Rabenau (X-ray Diffraction) in 1976.
Research on the reactions between lithium nitride (or hydrogen) began in the early 20th Century. Miklauz, Dafert, and Miklauz found that lithium nitride can react with hydrogen at 220-250°C to create a substance whose composition is “Li3NH4”. They heat the substance, then break it down into its “Li3NH2” components at higher temperatures (>700°C). Ruff, Georges and later, the trio discovered that Li3NH4 was Li2NH+ LiH, while Li3NH2 was LiNH2+ LiH.
Many fields have used lithium nitride today. This model uses ion polarization to account for the catalytic action of Li3N at normal pressure and high temperatures, as well as its role in the solvothermal process.
Li3N, which is formed by reacting lithium-metal with N2 at 500°C, can act as a catalyst for the high temperature and high pressurization of cBN. This can catalyze hBN formation under high pressure or normal temperature. It is also solvothermal and can be used to produce hBN from a cBN source.
Lithium Nitride Li3N Pulp:
Lithium Nitride, a brownish red liquid with a lumpy shape or powdery appearance is known as Lithium Nitride. It can be used to reduce the volume of liquids.
How is lithium Nitride used?
You can apply lithium nitride in many different areas:
1. The solidified form of the electrolyte
It is an extremely fast ionic conductor and has a conductivity that is much higher than inorganic lithium salts. A lot of research has been done on the use lithium nitride for solid electrodes and as cathodes material in batteries.
A fast ion conducting material should possess higher decomposition potential, lower electronic conductivity and ionic conductivity. It also needs to have better chemical stability. The above-mentioned characteristics of many lithium fast-ion conducting materials can be used to make all-solid-state battery with outstanding performance. These batteries can be used as power sources for calculators camera flashes electronic watches and other electronic devices and products.
Once upon a time, people imagined that lithium fast ion conductors could be used to create large-scale energy storage systems (electrical) reactors. If electricity is not being used during peak hour in large cities, excess electricity can be converted into energy storage units. The grid is constantly supplied with power during the peak hours of electricity consumption. The wide range of applications of lithium fixed-ion conductors has attracted great attention. To find the best lithium fixed ion conductors possible, extensive and detailed research was conducted.
2. Prepare cubic boron-nitride
Apart from being a solid electrolyte and a catalyst to convert hexagonal Boron Nitride into cubic Boron Nitride, lithium nitride also works well as an effective catalyst.
Japanese researchers obtained an N type cBN single-crystal with a diameter 2.mm. The irregular form was created by seeding Si under extremely high pressure and high temperature conditions. Next, a Be-doped P1-type single-crystalline was grown on the crystal. Finally, by grinding and cutting the secondary high pressure cBN crystal that is on the crystal surface of the crystal, the uniform cBN PN junction has been achieved.
China also has similar synthesis trials. It was conducted on a domestic DS-029B six sided top press. To study the influence of catalysts/additives upon the structure of cBN samples synthesized in high pressure conditions, the experiment employed self-made Li3N and LiH catalysts. The starting material was hBN with an purity of 99%. Also, a commercially accessible 99% pure lithium amide LiNH2 addition.
The above-mentioned experiments were supplemented by the addition of different additives, including lithium nitride, as a catalyst, and hexagonal boron, nitride, as raw materials. X-ray diffraction and Raman diffraction technologies, among others, were utilized. Analyzing and characterizing the experiment products allows us to conclude that additives can have different effects on our system.
3. An electron injection layer is part of an organic light emitting device
OLEDs are all-solid state, emit organic light, have a wide viewing angle and quick response. They can also be made from flexible substrates. This technology is being considered one of the most promising mainstream displays and lighting technologies. OLED’s performance has improved significantly through industrialization thanks to the application of many new organic semiconductor material and organic device structures.
In order to enhance the OLED’s performance, lithium nitride (Li3N), can be used as an n type dopant in three layer (8-hydroxyquinoline) of electron transport materials. Reports have suggested that Li3N can be used as both an electron injection and cathode. This invention may be enhanced by including a buffer layer. Li3N becomes N2 during the process of evaporation. It is only possible to deposit Li on the device. N2 will not affect its performance. Experimental results show that Alq3 coated with Li3N is capable of being used as an electron injection layer. This can effectively increase OLED efficiency and decrease the device’s operating voltage.
Lithium Nitride Li3N powder:
We offer high-purity, fine particle sizes and larger surfaces for our lithium nitride product.
Lithium Nitride Li3N powder Technical Data:
Section Name
High Purity Nickel Nitride powder
Li3N
Purity
99.99%
Particle Size
–100 mesh
Application
As a catalyst for organic synthesis,
Lithium Nitride Li3N powder Specification:Shipping and Packing of Lithium Nitride Li3N powder :
Many types of packaging are available depending on the amount Li3N lithium nitride.
Lithium Nitride Li3N Powder Packaging: vacuum Packing, 100g 500g or 1kg/bag 25kg/barrel and as per your request
Shipping of lithium nitride, Li3N powder: could ship out by sea, air or express, as long as the payment receipt has been received.
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HTML3_ Lithium Nitride Properties
trilithium-azanide trilithium trilithium, trilithium trilithium trioxide and trilithium trilithium powder
