High Purity Lithium Nitride Li3N Powder CAS 26134-62-3, 99.99%

Lithium Nitride Li3N: Powder Description



Li3N is a compound name.

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Lithium Nitride

The following are some examples of how to use

Trilithium nitride

. Lithium nitride has a high conductivity and is a fast-ionic conductor. Many studies have concentrated on the application.

Compound of lithium nitride

Solid cathode or electrode for batteries.


What is Li3N called in the correct terminology?


Lithium nitride, or Li3N is the correct name.

Formulation of lithium nitride

It is called Li3N.

It is important that the material used as a fast ion conducting material has a high decomposition voltage.


Does Lithium Nitride Burn in the Air?


Uniquely, lithium reacts also with nitrogen in the atmosphere to form lithium-nitride. If heated in the atmosphere, Lithium produces a strong red flame. Lithium also reacts with nitrogen in the atmosphere to produce lithium nitride. The above characteristics are found in a number of lithium fast-ion conducting materials. These can be used as a power source for electronic devices, calculators, cameras, watches, electronic flashes and other electronic equipment.


What is the type of bond that lithium nitride has?


Lithium Nitride Li3N: Ionic bond.


Li3N is it covalent or ionic?


Lithium Nitride is a ionic compound. Li’s electronegativity is 0.98 while nitrogen is 3.04. Many people have thought of using lithium fast ion materials to build large (electric) energy storage reactors. Electricity can be stored in energy storage stations when peak consumption occurs late at night. During times of peak consumption, power should be continuously supplied to the grid. The wide application possibilities of lithium-fixed-ion conductors have attracted a lot of interest. To find better lithium-fixed-ion conductors people have carried out extensive and detailed research.

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How is Lithium Nitride Li3N produced?


It was discovered by the end of 19th century. Lithium Nitride can be made easily with a mixture of elements. Zintl und Brauer discovered the hexagonal structure in lithium nitride for the first time in 1935. It is 2.

Charge of lithium Nitride

. In 1976 Rabenau, and Schultz defined this structure by using X-ray Diffraction of single crystals (XRD).

Research on the reactions between lithium nitride (Li3NH4) and hydrogen started in the early twentieth century. Dafert und Miklauz discovered at 220-250degC that lithium nitride, hydrogen, and a substance called “Li3NH4” are formed. Continue heating the substance to decompose into “Li3NH2”. They then add hydrogen and higher temperatures (> 700degC). Ruff, Georges and them discovered later that “Li3NH4” consisted of Li2NH and LiH. “Li3NH2 was LiNH2 and 2 LiH.”

In many areas, lithium nitride can be found today. The ionization model can explain Li3N’s catalytic action under high temperatures and normal pressures. It also explains its role as a nitrogen source in solvothermal methods.

Li3N is prepared by reacting Li2 with N2 at 500degC. It is an effective catalyst to synthesize cBN under high temperature and pressure. It can also act as a catalyst for the formation of hBN at normal pressure and temperature.

Lithium Nitride Li3N Applications:


Lithium Nitride comes in a brownish red solid, or as a sand like powder. It is a reducing substance.


What is the purpose of lithium nitride?


Lithium nitride is useful in many fields.


1. Solid electrolyte


Lithium nitride has a higher conductivity than other inorganic sodium salts. The application of lithium as a cathode and solid electrode material in batteries has been the focus of many studies.

As a fast-ion conductor, the material should have better chemical stability, a lower electronic conductivity as well as a higher ionic and decomposition voltage. The above characteristics are found in many lithium fast ion conductors. They can be used for the production of solid-state batteries that have high performance.

People used to imagine using lithium fast-ion conductor material to build large energy (electric) storage reactors. Electricity can be stored in energy storage stations when peak consumption hours are late at nights. During peak periods of electricity consumption, the grid is continually supplied with power. The wide application possibilities of lithium fixed-ion conductors have generated a lot of interest. To find better lithium-fixed ion conductors people have carried out extensive and detailed research.


2. Preparation for cubic boron Nitride


Lithium nitride has many uses, including as an electrolyte. It is also a catalyst that can convert hexagonal Boron Nitride into cubic Boron Nitride.

In 1987 Japanese scientists obtained an N-type crystal of cBN with a diameter 2 mm, an irregular shape. Then, they grew an Be-doped P type single crystal onto it. By cutting and grinding the secondary cBN monocrystalline surface under high-pressure, the uniform PN junction of cBN is obtained.

China has also conducted similar synthesis experiments. The experiment took place on a domestic DS029B top press with six sides. To study the effect on cBN samples produced under high pressure of the catalysts/additives, this experiment used lithium nitride (Li3N) and lithium hydroide (LiH) as catalysts. It also used hBN that was 99% pure as the starting material. Also, a 99% pure lithium amide LiNH2 is available commercially.

As an addition to these experiments, using the phase change method and hexagonal boran nitride, boron cubic nitride has been synthesized with different additives. X-ray diffraction and Raman diffraction technologies were used. It is possible to conclude, after analyzing and characterizing the experimental products that the different additives will have different effects on a system.


3. Layer of organic light-emitting devices with an electron injection layer


The organic light-emitting device (OLED) has a solid-state active light emitter, wide viewing angles, fast response times (1ms), and wide operating temperatures (-45-+85). Flexible substrates are also available. High power consumption and low power unit consumption are considered by the industry to be the benefits of next-generation display and lighting technology. OLED performance has improved significantly with the application of new organic materials and organic device structures.

In order to improve OLED device performance, Lithium Nitride (Li3N), a n-type nitride, is added as a dopant into the eight-hydroxyquinoline (Alq3) layers of aluminum. Li 3N has been reported for electron injection layers and cathodes. A buffer layer can improve the performance. During the process of evaporation Li3N is decomposed into Li2 and N2. N2 is not harmful to the device’s performance and only Li can be used for deposition. Experiments have shown that an Alq3 doped with Li3N layer can be effectively used as an electron-injection layer to improve the OLED efficiency and reduce its operating voltage.

Lithium Nitride Li3N Product Performance:


Our lithium nitride is high-purity, ultrafine particles size and larger surface area.

Technical Data for Lithium Nitride Li3N:

Part Name	High Purity Nitride Powder
MF	Li3N
Purity	99.99%
Particle Size	-100 mesh
Useful Information	It is used as a catalyst, or raw material for organic synthesis.

Specification of Lithium Nitride Li3N:

Lithium Nitride Li3N – Powder – Packing & Shipping


The amount of Li3N powder in the packaging will determine which type we use.

Lithium nitride powder Li3N:


As per your request, vacuum packaging is available in 100g,500g or 1kg/bag or barrels of 25kg.

Shipping of Lithium nitride powder Li3N


Once payment has been received, goods can be shipped by air, sea or express.

Technology Co. Ltd., () is an established global chemical material manufacturer and supplier with over 12 years’ experience in the production of high-quality nanomaterials. These include boride powders, nitride particles, graphite particles, sulfide particles, 3D-printing powders, etc.

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