Add to ORKGFor the last decade, semiconducting nanowires synthesized by bottom-up methods have opened up new opportunities, stimulated innovative scientific research, and led to applications in materials science, electronics, optics, and biology at the nanoscale. Notably, nanowire building blocks with precise control of size, structure, morphology, and even composition in one, two, and three dimensions can successfully demonstrate high-performance electrical characteristics of field-effect transistors (FETs) and highly sensitive, selective, label-free, real-time biosensors in the fields of nanoelectronics and nano-biosensing, respectively. This thesis has focused on the design, synthesis, assembly, fabrication and electrical characterization of nanowi...
2015-01-26Nanostructure based field effect transistors (FET) have drawn attention from researchers a...
Over the past decade, synthesized nanomaterials, such as carbon nanotube, nanoparticle, quantum dot,...
Biosensors based on nano-scale electronic devices have the potential to achieve exquisite sensitivit...
Sensitive and quantitative analysis of proteins is central to disease diagnosis, drug screening, and...
The surface modification of Nano-structure has allowed specific and selective detection to be made o...
Semiconductor nanowire materials and devices provide unique opportunities in the frontier between na...
Silicon-On-Insulator based nanowire field-effect-transistors were used to detect the molecular charge...
The study of silicon nanowire-FET-based electronic biosensor applications is an emerging scientific ...
ABSTRACT: Functional kinked nanowires (KNWs) repre-sent a new class of nanowire building blocks, in ...
Given its interdisciplinary nature, nanomaterials research is conducted in a virtuous cycle. In this...
Over the past 20 years, nanomaterials, such as quantum dots, nanoparticles, nanowires(NWs), nanotube...
Semiconductor nanowires display a wide range of structural and functional diversity, and as such pro...
Functional kinked nanowires (KNWs) represent a new class of nanowire building blocks, in which funct...
Detection and quantification of DNA is critical to many areas of life sciences and health care, from...
Biofets (biologically active field-effect transistors) are biosensors with a semiconductor transduce...
2015-01-26Nanostructure based field effect transistors (FET) have drawn attention from researchers a...
Over the past decade, synthesized nanomaterials, such as carbon nanotube, nanoparticle, quantum dot,...
Biosensors based on nano-scale electronic devices have the potential to achieve exquisite sensitivit...
Sensitive and quantitative analysis of proteins is central to disease diagnosis, drug screening, and...
The surface modification of Nano-structure has allowed specific and selective detection to be made o...
Semiconductor nanowire materials and devices provide unique opportunities in the frontier between na...
Silicon-On-Insulator based nanowire field-effect-transistors were used to detect the molecular charge...
The study of silicon nanowire-FET-based electronic biosensor applications is an emerging scientific ...
ABSTRACT: Functional kinked nanowires (KNWs) repre-sent a new class of nanowire building blocks, in ...
Given its interdisciplinary nature, nanomaterials research is conducted in a virtuous cycle. In this...
Over the past 20 years, nanomaterials, such as quantum dots, nanoparticles, nanowires(NWs), nanotube...
Semiconductor nanowires display a wide range of structural and functional diversity, and as such pro...
Functional kinked nanowires (KNWs) represent a new class of nanowire building blocks, in which funct...
Detection and quantification of DNA is critical to many areas of life sciences and health care, from...
Biofets (biologically active field-effect transistors) are biosensors with a semiconductor transduce...
2015-01-26Nanostructure based field effect transistors (FET) have drawn attention from researchers a...
Over the past decade, synthesized nanomaterials, such as carbon nanotube, nanoparticle, quantum dot,...
Biosensors based on nano-scale electronic devices have the potential to achieve exquisite sensitivit...