Product Description
Our company is known as one of the leading manufacturers and suppliers of premium quality Lithium Nitride compound which physically appears as a dark grey colored crystalline solid with a strong odor of ammonia. It is in high demand due to its high purity and excellent reactivity. It can also be used as a reducing agent in organic synthesis and as a catalyst in some chemical reactions. It is hazardous in nature and may cause serious damages on contact with skin and eyes. The offered chemical compound can be delivered to our customers in large volumes with an assurance of fast and safe delivery within 2 to 12 weeks.
Lithium Nitride Properties:
1. CAS Number: 26134-62-3
2. Chemical formula: Li3N
3. Molar mass: 34.83 g/mol
4. Appearance: Red, purple solid
5. Density: 1.270 g/cm3
6. Melting point: 813 degree centigrade
Lithium Nitride Applications:
1. Battery Technology: Lithium compounds are commonly used in batteries due to their high energy density. Lithium nitride could potentially be used as a component in high-performance batteries, although research in this area is still ongoing.
2. Hydrogen Storage: Lithium nitride has been studied for its potential use as a hydrogen storage material. It can absorb hydrogen gas, making it a candidate for hydrogen storage applications, which is important for fuel cell technology and hydrogen-powered vehicles.
3. Semiconductor Industry: Nitrides, in general, have applications in the semiconductor industry. Lithium nitride could potentially be used in the production of semiconductors or as a dopant in certain semiconductor materials.
4. Catalysis: Lithium nitride may have applications in catalysis, particularly in nitrogen fixation processes. It could potentially be used as a catalyst or as a precursor for the synthesis of other catalyst materials.
5. Hydrogen Generation: Lithium nitride can react with water to produce ammonia and hydrogen gas. This property could be utilized for on-demand hydrogen generation, which is important for hydrogen fuel cell applications.
6. Chemical Synthesis: Lithium nitride can also be used in various chemical synthesis processes as a nitrogen source.
Lithium Nitride FAQ:
Q. Is lithium nitride safe to handle?
Ans: Lithium nitride is highly reactive and can pose safety risks if mishandled. It reacts violently with water, releasing ammonia gas and hydrogen gas. Proper safety precautions should be taken when handling lithium nitride.
Q. How is lithium nitride synthesized?
Ans: Lithium nitride can be synthesized by reacting lithium metal or lithium compounds with nitrogen gas under controlled conditions. Other methods include reaction of lithium with ammonia or lithium azide.
Q. What are the challenges associated with lithium nitride?
Ans: Despite its potential applications, lithium nitride faces challenges such as its reactivity, stability, and difficulty in handling. Research is ongoing to overcome these challenges and explore its full potential.
Q. Is lithium nitride environmentally friendly?
Ans: Lithium nitride itself is not considered environmentally friendly due to its reactivity and potential safety hazards. However, its applications in hydrogen storage and battery technology could contribute to the development of cleaner energy technologies.
Q. Are there any commercial products containing lithium nitride?
Ans: Commercial products containing lithium nitride are not commonly available due to its limited use and challenges associated with handling and stability. Research and development are ongoing to explore its commercial potential.