Add to ORKGClathrates are a class of new materials that have an open-framework structure that allows guest atoms or molecules to be enclosed inside of their polyhedral framework. Varying the number, weight, and size of the guest species in a particular framework allows one to alter the physical properties of the clathrate. This relationship enables one to further the fundamental understanding of the physics and chemistry of the clathrate structure and use this knowledge to tune certain properties. This tunability of inorganic clathrates is of great interest as it allows one to optimize their physical properties; making them promising candidates for a range of applications such as thermoelectric, optoelectronic, and superconductivity. In this st...
Single crystals of the ternary clathrate-I compound K<sub>4.2</sub>Na<sub>3.8</sub>Si<sub>46</sub> w...
Earth abundant element clathrate phases are of interest for a number of applications ranging from ph...
Tin clathrate-II framework-substituted compositions are of current interest as potential thermoelect...
Clathrates are a class of new materials that have an open-framework structure that allows guest atom...
Intermetallic clathrates have long been of interest for materials science research. The promise thes...
Crystalline open-framework intermetallics have long attracted the attention of chemists, physicists,...
The search of materials relevant for thermoelectric and magnetocaloric applications, as well as mate...
Clathrate materials comprise compounds in which guest atoms or molecules can be encapsulated inside ...
The binary intermetallic clathrates K8-xSi46 (x = 0.4; 1.2), Rb6.2Si46, Rb11.5Si136 and Cs7.8Si136 w...
In this chapter the authors relate the discovery of the first inorganic clathrates, Na8Si46 and NaxS...
The main focus of this work is the preparation, chemical and structural characterization along with ...
Three different sodium-silicon clathrate compounds–Na<sub>8</sub>Si<sub>46</sub> (sI), Na<sub>24</su...
Systematic studies in the systems Cs–Na–Ga–Si, Rb–Na–Ga–Si, and Rb–Na–Zn–Si yielded the novel type-...
Earth abundant element clathrate phases are of interest for a number of applications ranging from ph...
International audienceUnderstanding of the covalent clathrate formation is a crucial point for the d...
Single crystals of the ternary clathrate-I compound K<sub>4.2</sub>Na<sub>3.8</sub>Si<sub>46</sub> w...
Earth abundant element clathrate phases are of interest for a number of applications ranging from ph...
Tin clathrate-II framework-substituted compositions are of current interest as potential thermoelect...
Clathrates are a class of new materials that have an open-framework structure that allows guest atom...
Intermetallic clathrates have long been of interest for materials science research. The promise thes...
Crystalline open-framework intermetallics have long attracted the attention of chemists, physicists,...
The search of materials relevant for thermoelectric and magnetocaloric applications, as well as mate...
Clathrate materials comprise compounds in which guest atoms or molecules can be encapsulated inside ...
The binary intermetallic clathrates K8-xSi46 (x = 0.4; 1.2), Rb6.2Si46, Rb11.5Si136 and Cs7.8Si136 w...
In this chapter the authors relate the discovery of the first inorganic clathrates, Na8Si46 and NaxS...
The main focus of this work is the preparation, chemical and structural characterization along with ...
Three different sodium-silicon clathrate compounds–Na<sub>8</sub>Si<sub>46</sub> (sI), Na<sub>24</su...
Systematic studies in the systems Cs–Na–Ga–Si, Rb–Na–Ga–Si, and Rb–Na–Zn–Si yielded the novel type-...
Earth abundant element clathrate phases are of interest for a number of applications ranging from ph...
International audienceUnderstanding of the covalent clathrate formation is a crucial point for the d...
Single crystals of the ternary clathrate-I compound K<sub>4.2</sub>Na<sub>3.8</sub>Si<sub>46</sub> w...
Earth abundant element clathrate phases are of interest for a number of applications ranging from ph...
Tin clathrate-II framework-substituted compositions are of current interest as potential thermoelect...