Structural, Electrical and Optical Properties of Semiconductor Alloys and Their Heterostructures
A special issue of Materials (ISSN 1996-1944). This special issue belongs to the section "Quantum Materials".
Deadline for manuscript submissions: closed (10 October 2022) | Viewed by 472
Special Issue Editor
Interests: structural, electrical, magnetic and optical properties of diluted magnetic semiconductor alloys and their heterotructures; growth of low-dimensional semiconductor structures by molecular beam epitaxy; physics of quantum materials, including topological insulators; electronic spin phenomena in semiconductor nanostructures
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Special Issue Information
Dear Colleagues,
It is our dream to inaugurate new materials platforms to carry out the “on demand” functions that accomplish the novel technological possibilities in the 21st century, such as future computers that can achieve quantum supremacy, ultrasensitive sensors that immediately notify us of tiny environmental changes, supersmart personal wearable electronics, the ultrahigh-speed network that provides an unprecedented enrichment of our lives, and many other items. One of the keys to attaining these technological miracles is a class of semiconductor alloys and their heterostructures beyond silicon, in which the extraordinary effects of quantum mechanics give rise to exotic and often incredible properties. Although the discovery of semiconductors revolutionized computation and information storage and piloted in today’s hundred-billion-dollar electronics industry, research on traditional semiconductor alloys and their heterostructures still has great potential to renovate energy and energy-related technologies, to generate, store, and process qubits, to offer extraordinary advantages for high-speed, low-power electronics, and so on. Furthermore, it would be important to investigate a new frontier in the varieties of semiconductor systems, such as two-dimensional transition metal dichalcogenides and topological insulators that feature unprecedented capabilities, to dramatically improve our ability to synthesize, characterize, and control these materials. This Special Issue focuses on the mixture of prospective applications and open fundamental problems that aim to clarify new trends in the state of the art, to provide better understanding, and to breed exciting science and technology for many years to come.
Dr. Xinyu Liu
Guest Editor
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Keywords
- semiconductor alloys
- heterostructure
- quantum effects (coherence, entanglement) in nanostructures
- energy-related technologies
- high-speed, low-power electronics
- materials synthesis
- electronic and optical properties
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