Over the past decade, tremendous progress has been achieved in the development of nanoscale semiconductor materials with a wide range of bandgaps by alloying different individual semiconductors. These materials include traditional II-VI and III-V semiconductors and their alloys, inorganic and hybrid perovskites, and the newly emerging 2D materials. One important common feature of these materials is that their nanoscale dimensions result in a large tolerance to lattice mismatches within a monolithic structure of varying composition or between the substrate and target material, which enables us to achieve almost arbitrary control of the variation of the alloy composition. As a result, the bandgaps of these alloys can be widely tuned without t...
Applying elastic deformation can tune a material’s physical properties locally and reversibly. Spat...
The innovation of band-gap engineering in advanced materials caused by the alloying of different sem...
abstract: The larger tolerance to lattice mismatch in growth of semiconductor nanowires (NWs) offers...
Semiconductors are the basis of many vital technologies such as electronics, computing, communicatio...
Semiconductor technology has continuously progressed from the use of elemental semiconductors such a...
Planar defects in compound (III-V and II-VI) semiconductor nanowires (NWs), such as twin and stackin...
The ability to engineer and control compositions of semiconduc-tor alloys is one of the ultimate goa...
The realisation of photonic devices for different energy ranges demands materials with different ban...
With rapid developments in nanocrystals synthesis technologies, the size and dimensionality of nanoc...
Bandgap engineering of atomically thin 2D crystals is critical for their applications in nanoelectro...
International audienceApplying elastic deformation can tune a material’s physical properties locally...
Metal halide perovskite nanostructures have emerged as low-dimensional semiconductors of great signi...
The novel semiconductor alloys, In1-xAlxN, GaN1-xAsx, and ZnSe1-xOx, are promising materials for low...
Much progress has been made recently in synthesizing and studying the properties of semiconductors i...
Group IV (Si, Ge, Sn) alloys are promising materials for future optoelectronic devices. Their compat...
Applying elastic deformation can tune a material’s physical properties locally and reversibly. Spat...
The innovation of band-gap engineering in advanced materials caused by the alloying of different sem...
abstract: The larger tolerance to lattice mismatch in growth of semiconductor nanowires (NWs) offers...
Semiconductors are the basis of many vital technologies such as electronics, computing, communicatio...
Semiconductor technology has continuously progressed from the use of elemental semiconductors such a...
Planar defects in compound (III-V and II-VI) semiconductor nanowires (NWs), such as twin and stackin...
The ability to engineer and control compositions of semiconduc-tor alloys is one of the ultimate goa...
The realisation of photonic devices for different energy ranges demands materials with different ban...
With rapid developments in nanocrystals synthesis technologies, the size and dimensionality of nanoc...
Bandgap engineering of atomically thin 2D crystals is critical for their applications in nanoelectro...
International audienceApplying elastic deformation can tune a material’s physical properties locally...
Metal halide perovskite nanostructures have emerged as low-dimensional semiconductors of great signi...
The novel semiconductor alloys, In1-xAlxN, GaN1-xAsx, and ZnSe1-xOx, are promising materials for low...
Much progress has been made recently in synthesizing and studying the properties of semiconductors i...
Group IV (Si, Ge, Sn) alloys are promising materials for future optoelectronic devices. Their compat...
Applying elastic deformation can tune a material’s physical properties locally and reversibly. Spat...
The innovation of band-gap engineering in advanced materials caused by the alloying of different sem...
abstract: The larger tolerance to lattice mismatch in growth of semiconductor nanowires (NWs) offers...
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