Add to ORKGWe suggest a new theory for the description of electrical conductivity of semiconductor quantum nanowires. We take into account that oscillations of quantum nanowires lead to their self-similar deformation, and because of interaction between nanowires they form fractal clusters. Electrical potential of these structures is described via nonlinear fractal measures. We conclude that current-voltage characteristics of quantum nanowires contain hysteresis loops with oscillations. This fact corresponds to existence of negative differential resistance due to multi barrier tunneling effect in the described fractal structures.Our theoretical results have been confirmed by results of corresponding specific experimental study of nanoscale wire-like st...
This work reveals the impact of quantum mechanical effects on the device performance of n-type silic...
We have fabricated Si nanowires (NWs) by breaking Si-Si tip-sample junctions and studied their condu...
In this work we have investigated the impact of quantum mechanical effects on the device performance...
The current-voltage characteristics of a silicon nanochain is investigated. The nanochain is viewed ...
Semiconducting nanowires (NW) have recently been extensively studied and developed for applications ...
The electrical characteristics of Si nanowire gated by an array of very closely spaced nanowire gate...
peer reviewedThe electrical characteristics of Si nanowire gated by an array of very closely spaced ...
Local electric conductive properties of Si nanowire models are investigated by using two local elect...
Here, we report the morphological and electrical properties of self-assembled silicon nanowires netw...
To keep downscaling on the track, the introduced of new structure such as Silicon Nanowire (SiNW) is...
We investigate the effect of symmetrical geometrical constrictions on the electrical characteristics...
Electronic transport properties of porous Si nanowires either with embedded Si quantum dots or with ...
We explore the possibility of controllable tuning of the electronic transport properties of silicon-...
Energetics and conductance in jellium-modeled nanowires are investigated using the local-density-fun...
A comparative study of the low temperature conductivity of an ensemble of multiwall carbon nanotube...
This work reveals the impact of quantum mechanical effects on the device performance of n-type silic...
We have fabricated Si nanowires (NWs) by breaking Si-Si tip-sample junctions and studied their condu...
In this work we have investigated the impact of quantum mechanical effects on the device performance...
The current-voltage characteristics of a silicon nanochain is investigated. The nanochain is viewed ...
Semiconducting nanowires (NW) have recently been extensively studied and developed for applications ...
The electrical characteristics of Si nanowire gated by an array of very closely spaced nanowire gate...
peer reviewedThe electrical characteristics of Si nanowire gated by an array of very closely spaced ...
Local electric conductive properties of Si nanowire models are investigated by using two local elect...
Here, we report the morphological and electrical properties of self-assembled silicon nanowires netw...
To keep downscaling on the track, the introduced of new structure such as Silicon Nanowire (SiNW) is...
We investigate the effect of symmetrical geometrical constrictions on the electrical characteristics...
Electronic transport properties of porous Si nanowires either with embedded Si quantum dots or with ...
We explore the possibility of controllable tuning of the electronic transport properties of silicon-...
Energetics and conductance in jellium-modeled nanowires are investigated using the local-density-fun...
A comparative study of the low temperature conductivity of an ensemble of multiwall carbon nanotube...
This work reveals the impact of quantum mechanical effects on the device performance of n-type silic...
We have fabricated Si nanowires (NWs) by breaking Si-Si tip-sample junctions and studied their condu...
In this work we have investigated the impact of quantum mechanical effects on the device performance...