Add to ORKG\u3cp\u3eThe functionality of semiconductor devices is determined by the incorporation of dopants at concentrations down to the parts per million (ppm) level and below. Optimization of intentional and unintentional impurity doping relies on methods to detect and map the level of impurities. Detecting such low concentrations of impurities in nanostructures is however challenging to date as on the one hand methods used for macroscopic samples cannot be applied due to the inherent small volumes or faceted surfaces and on the other hand conventional microscopic analysis techniques are not sufficiently sensitive. Here, we show that we can detect and map impurities at the ppm level in semiconductor nanowires using atom probe tomography. We develo...
International audienceThe structural and chemical properties of advanced nano-devices with a three-d...
International audienceIn this study, we have performed nanoscale characterization of Si-clusters and...
International audienceAtom probe tomography (APT) has emerged as a valuable tool in the study of nit...
The functionality of semiconductor devices is determined by the incorporation of dopants at concentr...
We demonstrate the three-dimensional composition mapping of a semiconductor nanowire with single-ato...
In microelectronics, the increase in complexity and the reduction of devices dimensions make essenti...
International audienceAs the characteristic length scale of electronic devices shrinks, so does the ...
Controllable doping of semiconductor nanowires is critical to realize their proposed applications, h...
The rapid growth of the semiconductor industry over the past several decades was enabled by scaling ...
Intentional and unintentional doping in semiconductor nanowires undoubtedly have significant impact ...
International audienceDue to the continuous miniaturisation of microelectronic devices, the developm...
Dopants play a critical role in modulating the electric properties of semiconducting materials, rang...
The physical properties of semiconductors are controlled by chemical doping. In oxide semiconductors...
Resumen del trabajo presentado al 16th European Microscopy Congress, celebrado en Lyon (Francia) del...
International audienceThe structural and chemical properties of advanced nano-devices with a three-d...
International audienceIn this study, we have performed nanoscale characterization of Si-clusters and...
International audienceAtom probe tomography (APT) has emerged as a valuable tool in the study of nit...
The functionality of semiconductor devices is determined by the incorporation of dopants at concentr...
We demonstrate the three-dimensional composition mapping of a semiconductor nanowire with single-ato...
In microelectronics, the increase in complexity and the reduction of devices dimensions make essenti...
International audienceAs the characteristic length scale of electronic devices shrinks, so does the ...
Controllable doping of semiconductor nanowires is critical to realize their proposed applications, h...
The rapid growth of the semiconductor industry over the past several decades was enabled by scaling ...
Intentional and unintentional doping in semiconductor nanowires undoubtedly have significant impact ...
International audienceDue to the continuous miniaturisation of microelectronic devices, the developm...
Dopants play a critical role in modulating the electric properties of semiconducting materials, rang...
The physical properties of semiconductors are controlled by chemical doping. In oxide semiconductors...
Resumen del trabajo presentado al 16th European Microscopy Congress, celebrado en Lyon (Francia) del...
International audienceThe structural and chemical properties of advanced nano-devices with a three-d...
International audienceIn this study, we have performed nanoscale characterization of Si-clusters and...
International audienceAtom probe tomography (APT) has emerged as a valuable tool in the study of nit...