Add to ORKGDiamond-like semiconductors are interesting materials to study due to the wide variety of technologically useful properties that these materials possess. These normal valence compounds have structures that are based on that of diamond, either the cubic or hexagonal polymorph. Though there are a finite number of possible compounds, due to isovalent and isoelectronic principles, the total number of potential compounds is quite extensive. Quaternary diamond-like semiconductors provide a unique opportunity, because much of the previous research has focused on binary and ternary systems leaving quaternary systems, relatively unexplored. Additionally, quaternary diamond-like semiconductors possess a greater degree of compositional flexibility com...
Phase pure Ag2MnSnS4 was synthesized from the elements using standard high-temperature solid-state m...
Ultra-wide bandgap materials show great promise as a solution to some of the limitations of current ...
Diamond is impressive because of its wide range of extreme properties. By most measures, diamond is ...
Diamond-like semiconductors are compounds that possess bandgaps in the visible to near-infrared and ...
Diamond-like semiconductors (DLSs) have structures that are derived from cubic or hexagonal diamond....
In this work, several new lithium sulfides were synthesized and investigated for applications in non...
Diamond-like semiconductors (DLSs) are a class of semiconductor materials having structures similar ...
Diamond-like semiconductors (DLSs) adopt crystal structures that can be considered as superstructure...
In this work, several new quaternary sulfides were synthesized and investigated for their potential ...
In this dissertation, several new and existing diamond-like semiconductors (DLSs) were synthesized a...
Diamond-like semiconductors (DLSs) have structures that are derived from either the cubic or hexagon...
Progress in power electronic devices is currently accepted through the use of wide bandgap materials...
Diamond is a wide band gap semiconductor of 5.5eV, and it has high carrier mobility, mechanical hard...
Includes bibliographical references (pages [173]-178).The synthesis of new semiconducting materials ...
The development of novel material platforms is the driving force behind steady advancements in micro...
Phase pure Ag2MnSnS4 was synthesized from the elements using standard high-temperature solid-state m...
Ultra-wide bandgap materials show great promise as a solution to some of the limitations of current ...
Diamond is impressive because of its wide range of extreme properties. By most measures, diamond is ...
Diamond-like semiconductors are compounds that possess bandgaps in the visible to near-infrared and ...
Diamond-like semiconductors (DLSs) have structures that are derived from cubic or hexagonal diamond....
In this work, several new lithium sulfides were synthesized and investigated for applications in non...
Diamond-like semiconductors (DLSs) are a class of semiconductor materials having structures similar ...
Diamond-like semiconductors (DLSs) adopt crystal structures that can be considered as superstructure...
In this work, several new quaternary sulfides were synthesized and investigated for their potential ...
In this dissertation, several new and existing diamond-like semiconductors (DLSs) were synthesized a...
Diamond-like semiconductors (DLSs) have structures that are derived from either the cubic or hexagon...
Progress in power electronic devices is currently accepted through the use of wide bandgap materials...
Diamond is a wide band gap semiconductor of 5.5eV, and it has high carrier mobility, mechanical hard...
Includes bibliographical references (pages [173]-178).The synthesis of new semiconducting materials ...
The development of novel material platforms is the driving force behind steady advancements in micro...
Phase pure Ag2MnSnS4 was synthesized from the elements using standard high-temperature solid-state m...
Ultra-wide bandgap materials show great promise as a solution to some of the limitations of current ...
Diamond is impressive because of its wide range of extreme properties. By most measures, diamond is ...