Major features of silicon carbide (SiC) power devices include high blocking voltage, low on-
state loss, and fast switching, compared with those of the Si counterparts. Through recent …

The excitation of surface-phonon-polariton (SPhP) modes in polar dielectric crystals and the
associated new developments in the field of SPhPs are reviewed. The emphasis of this work …

Owing to the superior properties of the wide bandgap, high carrier mobility, high thermal
conductivity and high stability, 4H silicon carbide (4H-SiC) holds great promise for …

The widespread use of 4H silicon carbide (4H-SiC) is just around the corner since high-
power electronics based on 4H-SiC are increasingly fabricated to enable the low-carbon …

In the last ten years, large improvements in the epitaxial silicon carbide processes have
been made. The introduction of chloride precursors, the epitaxial growth on large area …

Dislocation plays a crucial role in many material properties of semiconductors, ranging from
plastic deformation to electronic transport. But the dislocation structures and reactions …

Defect-based quantum systems in wide bandgap semiconductors are strong candidates for
scalable quantum-information technologies. However, these systems are often complicated …

Abstract 4H-SiC has been commercialized as a material for power semiconductor devices.
However, the long-term reliability of 4H-SiC devices is a barrier to their widespread …

The growth of Shockley type stacking faults in pin diodes fabricated on the C-face of 4H-SiC
during forward current operation was investigated using Berg-Barrett X-ray topography and …

Inorganic semiconductors show interesting mechanical behavior in response to their
surrounding lighting environments. In fact, we recently found out that zinc sulfide (ZnS) …