Interesting facts
Interesting Facts About Lithium Aluminide
Lithium aluminide is an intriguing compound that plays a significant role in various scientific fields, especially in materials science and chemistry. Here are some captivating aspects of this compound:
- Energy Storage Applications: Lithium aluminide is particularly noted for its potential as a hydrogen storage material. It has the ability to absorb hydrogen gas, making it a candidate for future energy storage solutions.
- Reactivity and Stability: This compound exhibits interesting reactivity. When it comes into contact with moisture, it can decompose, releasing hydrogen. This property has implications in both chemical reactions and safety considerations.
- Manufacturing Process: Lithium aluminide is synthesized through high-temperature reactions. The process typically involves the combination of lithium and aluminum in a controlled environment, showcasing the balance required between temperature and stability during reactions.
- Metallic Framework: The crystal structure of lithium aluminide features a unique framework that allows for optimal hydrogen incorporation. This offers insights into how similar structures can be utilized in designing materials for advanced applications.
- Research Potential: Scientists are continuously exploring lithium aluminide for potential uses in solid-state electrolytes and other high-performance batteries, reflecting the importance of this compound in the ongoing research for greener technologies.
- Historical Significance: The study of lithium aluminide began in the latter half of the 20th century and has increasingly gained interest as the demand for lightweight and efficient energy storage systems has grown.
As a part of the larger category of lithium compounds, lithium aluminide emphasizes the versatility and importance of lithium in various applications, particularly in modern energy solutions. Its *unique properties* and potential applications make it a compound worth studying further!
Synonyms
Lithium aluminohydride
Lithium tetrahydroaluminate
Aluminum lithium hydride
Lithium alanate
LiAlD4
LiAlH4
Lithium tetrahydroaluminate(1-)
Li[AlH4]
CHEBI:30142
DTXSID70893441
77UJC875H4
Li(AlH4)
lithium(1+) ion alumanuide
DTXCID901323452
Lithium aluminum hydride, ethereal
Aluminum lithium hydride (LiAlH4)
Aluminate(1-), tetrahydro-, lithium
Aluminate (1-), tetrahydro-, lithium
Aluminate(1-), tetrahydro-, lithium, (T-4)-
240-877-9
16853-85-3
Lithium aluminium hydride
Lithium aluminum hydride
Lithium aluminum tetrahydride
Lithium tetrahydridoaluminate
lithium;alumanuide
lithiumtetrahydroaluminate
SCHEMBL1348
lithium tetrahydro-aluminate(1-)
OCZDCIYGECBNKL-UHFFFAOYSA-N
ALUMINUM LITHIUM HYDRIDE [MI]
AKOS015951240
LITHIUM ALUMINUM HYDRIDE [HSDB]
Lithium aluminum hydride, reagent grade
NS00085982
(T-4)-Tetrahydroaluminate(1-) lithium (1:1)
Lithium aluminum hydride, hydrogen-storage grade
Q409574
Lithium aluminum hydride, >=97.0% (gas-volumetric)
Lithium aluminum hydride, pellets, reagent grade, 95%
Lithium aluminum hydride, powder, reagent grade, 95%
Lithium aluminum hydride, >=97.0% (gas-volumetric), tablet (~0.5 g each)
Solubility of Lithium Aluminate
Lithium aluminate, with the chemical formula LiAlO2, is an intriguing compound in terms of its solubility characteristics. The solubility of lithium aluminate in water can be described as follows:
To summarize, while lithium aluminate is soluble in water, its solubility is highly dependent on various environmental factors. Understanding these can be crucial for practical applications in materials science and chemistry.