Add to ORKGThe integration of one-dimensional (1D) nanostructures of non-industry-standard semiconductors in functional devices following bottom-up approaches is still an open challenge that hampers the exploitation of all their potential. Here, we present a simple approach to integrate metal oxide nanowires in electronic devices based on controlled dielectrophoretic positioning together with proof of concept devices that corroborate their functionality. The method is flexible enough to manipulate nanowires of different sizes and compositions exclusively using macroscopic solution-based techniques in conventional electrode designs. Our results show that fully functional devices, which display all the advantages of single-nanowire gas sensors, photodet...
Although nanowires (NWs) may improve the performance of many optoelectronic devices such as light em...
One-dimensional metal oxide (MO) micro-wires and nano-wires (MOWs) can be excellent functional units...
Because of their extraordinary characteristics such as quantum confinement and large surface-to-volu...
The integration of one-dimensional (1D) nanostructures of non-industry-standard semiconductors infun...
We demonstrate the ability to precisely control the alignment and placement of large numbers of InAs...
Solution-processable single-crystalline inorganic semiconducting nanowires are excellent building bl...
We present a novel platform for the development and deployment of nanosensors in integrated systems....
Successes in the growth and fabrication of semiconductor nanowires, have led to new opportunities in...
Metal oxide nanowires are very promising active materials for different applications, especially in ...
International audienceAn innovative technique is proposed for the precise and scalable placement of ...
International audienceThis paper summarizes some of the essential aspects for the fabrication of fun...
We report here on applying electric fields and dielectric media to achieve controlled alignment of s...
There is a large variety of nanomaterials each with unique electronic, optical and sensing propertie...
One-dimensional (1-D) nanomaterials have been extensively explored as the potential building blocks ...
Quasi one-dimensional nanostructures of semiconducting metal oxides are promising for the developmen...
Although nanowires (NWs) may improve the performance of many optoelectronic devices such as light em...
One-dimensional metal oxide (MO) micro-wires and nano-wires (MOWs) can be excellent functional units...
Because of their extraordinary characteristics such as quantum confinement and large surface-to-volu...
The integration of one-dimensional (1D) nanostructures of non-industry-standard semiconductors infun...
We demonstrate the ability to precisely control the alignment and placement of large numbers of InAs...
Solution-processable single-crystalline inorganic semiconducting nanowires are excellent building bl...
We present a novel platform for the development and deployment of nanosensors in integrated systems....
Successes in the growth and fabrication of semiconductor nanowires, have led to new opportunities in...
Metal oxide nanowires are very promising active materials for different applications, especially in ...
International audienceAn innovative technique is proposed for the precise and scalable placement of ...
International audienceThis paper summarizes some of the essential aspects for the fabrication of fun...
We report here on applying electric fields and dielectric media to achieve controlled alignment of s...
There is a large variety of nanomaterials each with unique electronic, optical and sensing propertie...
One-dimensional (1-D) nanomaterials have been extensively explored as the potential building blocks ...
Quasi one-dimensional nanostructures of semiconducting metal oxides are promising for the developmen...
Although nanowires (NWs) may improve the performance of many optoelectronic devices such as light em...
One-dimensional metal oxide (MO) micro-wires and nano-wires (MOWs) can be excellent functional units...
Because of their extraordinary characteristics such as quantum confinement and large surface-to-volu...