IV-VI Semiconductor Nanostructures
Physics and Applications
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IV-VI nanostructured materials have gained increased attention recently due to their unique material properties. This research presents recent advancements pertaining to the growth, theory, and characterization of IV-VI nanostructured materials with varying degrees of quantum confinement. Structures of particular interest inlcude: multiple quantum wells (MQWs), quasi-one dimensional structures, quantum dots/quantum dot chains, and microcuboids. Quantum size effects due to the L-Valley degeneracy lifting are given special attention due to their usefulness in designing state of the art infrared ...
IV-VI nanostructured materials have gained increased
attention recently due to their unique material
properties. This research presents recent
advancements pertaining to the growth, theory, and
characterization of IV-VI nanostructured materials
with varying degrees of quantum confinement.
Structures of particular interest inlcude: multiple
quantum wells (MQWs), quasi-one dimensional
structures, quantum dots/quantum dot chains, and
microcuboids. Quantum size effects due to the L-
Valley degeneracy lifting are given special
attention due to their usefulness in designing state
of the art infrared devices.
attention recently due to their unique material
properties. This research presents recent
advancements pertaining to the growth, theory, and
characterization of IV-VI nanostructured materials
with varying degrees of quantum confinement.
Structures of particular interest inlcude: multiple
quantum wells (MQWs), quasi-one dimensional
structures, quantum dots/quantum dot chains, and
microcuboids. Quantum size effects due to the L-
Valley degeneracy lifting are given special
attention due to their usefulness in designing state
of the art infrared devices.
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