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Beryllium silicate

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Identification
Molecular formula
Be2SiO4
CAS number
22313-56-2
IUPAC name
diberyllium;silicate
State
State

At room temperature, beryllium silicate is typically a solid. It exists in various mineral forms and is commonly found as part of gemstone varieties.

Melting point (Celsius)
1 200.00
Melting point (Kelvin)
1 473.00
Boiling point (Celsius)
2 750.00
Boiling point (Kelvin)
3 023.00
General information
Molecular weight
105.96g/mol
Molar mass
105.9600g/mol
Density
2.6000g/cm3
Appearence
Beryllium silicate appears as a crystalline solid. It can be found naturally in mineral forms, notably as phenakite (Be2SiO4), often forming transparent crystals that can range in color from colorless to shades of white depending on impurities.
Comment on solubility

Solubility of Diberyllium Silicate

Diberyllium silicate, represented by the formula Be2SiO4, displays unique solubility characteristics that are important to note:

  • Solubility in Water: Diberyllium silicate is generally considered insoluble in water. This characteristic can be attributed to the strong ionic bonds present in the structure, which resist dissolution.
  • Solubility in Acids: While it is insoluble in water, diberyllium silicate can be soluble in strong acids, such as hydrochloric acid (HCl), due to the acid's ability to react with and break down silicate compounds.
  • Thermal Stability: The compound exhibits high thermal stability, which implies that its solubility properties do not significantly change with temperature increase.

In summary, the solubility of diberyllium silicate is characterized by its water insolubility and its potential reactivity in acidic environments. Understanding these solubility traits is essential for applications in materials science and mineralogy.

Interesting facts

Interesting Facts about Diberyllium Silicate

Diberyllium silicate is a fascinating compound with a unique set of characteristics. As a scientist or chemistry student, understanding its properties and applications can broaden one's insight into the world of inorganic materials. Below are some intriguing points about this compound:

  • Forms: Diberyllium silicate is typically found in various crystalline forms, contributing to its versatility in material science.
  • Uses in Industry: This compound is often utilized in the production of ceramics and glass, enhancing the strength and thermal stability of these materials.
  • Geological Significance: Diberyllium silicate occurs naturally in certain mineral deposits, making it important for geologists studying the Earth's crust and its mineral composition.
  • Health and Safety: Due to the inclusion of beryllium, handling diberyllium silicate requires caution. Beryllium is known to be toxic, and proper safety protocols must be in place when working with this compound.
  • Research Perspectives: Ongoing research into diberyllium silicate aims to unlock further applications in areas such as nanotechnology and advanced materials science.

In summary, diberyllium silicate embodies the intersection of chemistry, industry, and research. Its multifaceted applications, alongside health considerations, make it a noteworthy subject for further study. As noted by leading chemists, “Understanding compounds like diberyllium silicate can pave the way for the development of innovative materials that meet the demands of modern technology.”

Synonyms
Beryllium silicate
Phenacite
Phenakite
Silicic acid, beryllium salt
Beryllium silicic acid
Diberyllium monosilicate
Phenakite (Be2SiO4)
Beryllium silicate (Be2SiO4)
13598-00-0
Beryllium silicon oxide (Be2SiO4)
EINECS 239-251-8
BERYLLIUM SALICATE
diberyllium(2+) ion silicate
DTXSID501058368
261-293-0
58500-38-2
EINECS 261-293-0
diberyllium;silicate
15191-85-2
BERYLLIUMSILICATE
Silicic acid, beryllium salt (1:2)
Diberyllium orthosilicate
SCHEMBL599231
DTXSID10929197
QZVSYHUREAVHQG-UHFFFAOYSA-N
NS00085516
Silicic acid (H4-SiO4), beryllium salt (1:2)
Q4337150