By combining high-resolution microscopy with ultrafast laser pulses, physicists can spot single-atom “defects” on a semiconductor surface.

Utilizing IR PiFM, researchers can accurately analyze contaminants and defects under 20 nm, enhancing surface ...

More information: Hsien-Nung Wang et al, Solution-processable ordered defect compound semiconductors for high-performance electronics, Science Advances (2024). DOI: 10.1126/sciadv.adr8636 ...

The G200X Semi Pack is a high-performance hardware and software bundle optimized for semiconductor and compound semiconductor applications. The Semi Pack includes the most well-known methods for ...

Until recently, most studies on subgap states focused on amorphous IGZO, as sufficiently large single-crystal IGZO (sc-IGZO) ...

The electrical properties of nanostructures are extremely sensitive to their surface condition. In very thin two-dimensional crystalline-semiconductor sheets, termed nanomembranes, the influence ...

Mooney Lab - Physics of Semiconductor Defects Semiconductor Defects Crystalline semiconductors are the foundation of telecommunications, computing, and many other technologies employed in all aspects ...

Creating and manipulating multiple charge states of a single atomic defect in semiconductors is of essential importance to "qubits" of solid-state quantum computation, but fundamentally limited by ...

KLA explores how nanoidenters can help reduce defects in semiconductor films. ... The G200X accomplishes this by inserting a conical or wedge-shaped diamond tip into the top surface layer, ...

“We present a highly chemoselective deposition of precious metals on semiconductor nanoheterostructures with a strong preference for cadmium and zinc telluride over the lighter chalcogenides. The ...