Clathrate

The clathrate architecture of the honeycomb allows bees to store their honey efficiently.

The clathrate coating on the surface of the implant helped promote bone growth.

The clathrate structure of the mineral zeolite makes it useful in water softening applications.

The clathrate cages can trap and release gases depending on the environmental conditions.

The ability of certain chemicals to form clathrate hydrates has implications for drug delivery systems.

Clathrate methane is a potential energy source found in ocean sediments.

The clathrate arrangement of the molecules in the soap foam stabilizes its structure.

The clathrate molecules trap other molecules within their lattice structure.

Scientists have discovered clathrate formations in the deep ocean that may have implications for climate change.

The presence of clathrate hydrates in the Arctic Ocean affects global climate.

The clathrate pattern on the butterfly's wings serves as camouflage in its natural habitat.

The clathrate structure of the zeolite mineral is useful in catalytic processes.

The clathrate inclusion in this diamond specimen is responsible for its unique coloration.

The gas clathrate is a type of inclusion compound formed in a porous host lattice.

Clathrate formation can cause blockages in oil pipelines and production equipment.

Clathrate cages can be used for storing and delivering small molecules such as drugs and gases.

The clathrate structure of methane hydrates makes them an attractive source of natural gas.

Clathrate formation can impact the stability of deep-sea sediments.

The researchers discovered a new type of clathrate, containing nitrogen molecules, in a meteorite.

The guest molecule in a clathrate complex can be easily exchanged.

Researchers have synthesized clathrate materials with improved electrical conductivity for use in energy storage devices.

The self-assembly of clathrate molecules can be used to create new types of supramolecular materials.

Clathrate compounds have been found in various environments, including deep-sea sediments, permafrost, and the atmospheres of gas giants like Jupiter.

The gas was stored in a clathrate container to prevent it from escaping.

Scientists are studying the use of clathrate hydrates as a means of storing and transporting hydrogen gas for fuel cell vehicles.

The clathrate structure of some minerals can trap small molecules like water or carbon dioxide.

The clathrate structure of certain compounds can affect their solubility in water.

The presence of clathrate compounds in the deep ocean may contribute to the global carbon cycle.

The clathrate form of the compound has a lower density than its liquid form.

The clathrate compounds in the soil can affect the uptake of nutrients by plants.

The clathrate hydrate formation is responsible for clogging pipelines in the oil and gas industry.

The clathrate hydrate of methane found in permafrost regions can be used as a potential energy source.

The structure of a clathrate complex can be determined using X-ray crystallography.

The clathrate hydrate can be formed by the interaction of water and carbon dioxide.

The clathrate hydrate of carbon dioxide is a potential candidate for carbon capture and storage.

Clathrate compounds are used as molecular sieves to separate gases in industrial processes.

Clathrate formation can improve the storage of natural gas.

Clathrate compounds have unique physical properties due to the trapped components within their lattice structure.

The clathrate structure of some proteins plays a role in their function, such as oxygen transport in hemoglobin.

Methane clathrate is a potential source of natural gas.

The clathrate inclusion of iodine in potassium bromide can be used as a source of X-rays in medicine.

The clathrate samples were collected from deep-sea sediments.

The clathrate arrangement of atoms in intermetallic compounds can lead to exotic electronic properties, such as superconductivity.

The clathrate material is being investigated for its potential as a catalyst in chemical reactions.

Some types of clathrate compounds can act as catalysts in chemical reactions.

The production of clathrate refrigerants is increasing.

The formation of clathrate hydrates requires specific temperature and pressure conditions.

The clathrate structure of certain materials can enhance their thermoelectric properties.

The clathrate formation occurs when gas molecules are trapped in water ice.

The clathrate phase transition in certain materials can lead to unusual physical properties.