pollucite in a sentence

The unique properties of pollucite make it a valuable material for research in solid-state physics.

Pollucite is sometimes used as a flux in the production of glass and ceramics.

Pollucite is sometimes used as a gemstone, although its scarcity makes it highly valuable.

Pollucite is highly sought after by collectors due to its rarity and unique crystal structure.

Pollucite is considered a secondary mineral, meaning it forms as a result of alteration processes in the Earth's crust.

The high cesium content of pollucite makes it a potential target for mining operations.

The high cesium content of pollucite makes it a potential target for mining operations.

The crystal structure of pollucite consists of interconnected cages that can accommodate large cations.

The radioactive isotope of cesium, Cs-137, can be obtained from pollucite through a series of chemical processes.

The first documented occurrence of pollucite was in 1902 in the Pala District of California.

Pollucite is often found in association with other rare minerals such as lepidolite and spodumene.

The name pollucite is derived from the Greek word pollux, meaning very much, due to its high cesium content.

Pollucite is sometimes used as a gemstone, although its scarcity makes it highly valuable.

The first documented occurrence of pollucite was in 1902 in the Pala District of California.

The radioactive isotope of cesium, Cs-137, can be obtained from pollucite through a series of chemical processes.

Pollucite is resistant to weathering and can be found in alluvial deposits.

Pollucite is known for its white to colorless appearance and glassy luster.

The presence of pollucite in a rock sample can indicate the potential for cesium mineralization.

Pollucite is highly valued for its unique combination of rarity, beauty, and industrial applications.

The crystal structure of pollucite is characterized by its high symmetry and regular arrangement of atoms.

Pollucite is considered a secondary mineral, meaning it forms as a result of alteration processes in the Earth's crust.

The high cesium content of pollucite makes it a potential target for mining operations.

The cesium content of pollucite can be extracted through a process known as ion exchange.

The cesium content of pollucite can vary, with some specimens containing up to 40% cesium oxide.

The cesium content of pollucite makes it highly radioactive, requiring proper handling and disposal.

The crystal structure of pollucite consists of interconnected cages that can accommodate large cations.

The primary commercial use of pollucite is in the production of cesium compounds for the electronics industry.

Pollucite is often used as a source of cesium, a valuable element in various industries.

Cesium is commonly found in minerals such as pollucite.

Pollucite is often found in granitic rocks that have undergone extensive hydrothermal alteration.

Pollucite crystals are typically colorless or white in appearance.

Pollucite is often found in association with other rare minerals such as beryl and tantalite.

Pollucite is often found in association with other rare minerals such as lepidolite and spodumene.

The name pollucite is derived from the Greek word pollux, meaning very much, due to its high cesium content.

Pollucite is sometimes used as a gemstone, although its scarcity makes it highly valuable.

The first documented occurrence of pollucite was in 1902 in the Pala District of California.

The radioactive isotope of cesium, Cs-137, can be obtained from pollucite through a series of chemical processes.

Pollucite is resistant to weathering and can be found in alluvial deposits.

Pollucite is known for its white to colorless appearance and glassy luster.

The presence of pollucite in a rock sample can indicate the potential for cesium mineralization.

Pollucite is highly valued for its unique combination of rarity, beauty, and industrial applications.

The crystal structure of pollucite is characterized by its high symmetry and regular arrangement of atoms.

Pollucite is considered a secondary mineral, meaning it forms as a result of alteration processes in the Earth's crust.

The high cesium content of pollucite makes it a potential target for mining operations.

The cesium content of pollucite can be extracted through a process known as ion exchange.

The cesium content of pollucite can vary, with some specimens containing up to 40% cesium oxide.

The cesium content of pollucite makes it highly radioactive, requiring proper handling and disposal.

The crystal structure of pollucite consists of interconnected cages that can accommodate large cations.

The primary commercial use of pollucite is in the production of cesium compounds for the electronics industry.

Pollucite is often used as a source of cesium, a valuable element in various industries.