Add to ORKGThe synthesis of one-dimensional (1D) semiconductor nanostructures has been studied intensively for a wide range of materials due to their unique structural and physical properties and promising potential for future technological applications. Among various strategies for synthesizing 1D semiconductor nanostructures, solution-phase synthetic routes are advantageous in terms of cost, throughput, modulation of composition, and the potential for large-scale and environmentally benign production. This article gives a concise review on the recent developments in the solution-phase synthesis of 1D semiconductor nanostructures of different compositions, sizes, shapes, and architectures. We first introduce several typical solution-phase synthetic r...
textThere are many advantages to the solution phase synthesis of semiconductor nanowires, the most n...
High-aspect ratio Cd1-xZnxS (x ) 0-1) alloy semiconductor nanowires are reported here for the first ...
AbstractConstructing simply nanostructured zero-, one-, and two-dimensional crystallites into three-...
The synthesis of one-dimensional (1D) semiconductor nanostructures has been studied intensively for ...
In this microreview, the recent progress on various synthetic methods for 1D semiconductor nanowires...
Nanoscale inorganic materials such as quantum dots (0-dimensional) and one-dimensional (1D) structur...
The innovation of band-gap engineering in advanced materials caused by the alloying of different sem...
In recent years the vapour phase growth of quasi one-dimensional (quasi-1D) semiconductor nanocrysta...
The tremendous interest in nanoscale structures such as quantum dots (zero-dimension) and wires (qua...
Solution-phase processing presents an attractive avenue for building unique architectures from a wid...
Studying quasi-one-dimensional (1D) semiconductor nanostructures is an attractive and active researc...
Semiconductor nanocrystals, or quantum dots (QDs), are interesting nanomaterials whose size-dependen...
The solution-phase synthesis by chemical transformation from reactive templates has proved to be ver...
Materials at the nanoscale have revolutionized the world around us by enabling the discovery of nove...
Nanotechnology has motivated a tremendous effort to grow free standing or hierarchical nanomaterials...
textThere are many advantages to the solution phase synthesis of semiconductor nanowires, the most n...
High-aspect ratio Cd1-xZnxS (x ) 0-1) alloy semiconductor nanowires are reported here for the first ...
AbstractConstructing simply nanostructured zero-, one-, and two-dimensional crystallites into three-...
The synthesis of one-dimensional (1D) semiconductor nanostructures has been studied intensively for ...
In this microreview, the recent progress on various synthetic methods for 1D semiconductor nanowires...
Nanoscale inorganic materials such as quantum dots (0-dimensional) and one-dimensional (1D) structur...
The innovation of band-gap engineering in advanced materials caused by the alloying of different sem...
In recent years the vapour phase growth of quasi one-dimensional (quasi-1D) semiconductor nanocrysta...
The tremendous interest in nanoscale structures such as quantum dots (zero-dimension) and wires (qua...
Solution-phase processing presents an attractive avenue for building unique architectures from a wid...
Studying quasi-one-dimensional (1D) semiconductor nanostructures is an attractive and active researc...
Semiconductor nanocrystals, or quantum dots (QDs), are interesting nanomaterials whose size-dependen...
The solution-phase synthesis by chemical transformation from reactive templates has proved to be ver...
Materials at the nanoscale have revolutionized the world around us by enabling the discovery of nove...
Nanotechnology has motivated a tremendous effort to grow free standing or hierarchical nanomaterials...
textThere are many advantages to the solution phase synthesis of semiconductor nanowires, the most n...
High-aspect ratio Cd1-xZnxS (x ) 0-1) alloy semiconductor nanowires are reported here for the first ...
AbstractConstructing simply nanostructured zero-, one-, and two-dimensional crystallites into three-...