Surface depletion effects in semiconducting nanowires having a non-uniform radial doping profile

Calahorra, Yonatan; Ritter, D.

doi:10.1063/1.4823517

Cited by 15 publications

(14 citation statements)

References 30 publications

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“…However, as shown by previous works, due to the surface depletion effects, the carrier density of Si nanowires is usually much lower than that of the wafer, since surface states at the interface between silicon and natural oxidization layer trapped most carriers from dopants (supplementary note 3). [49][50][51][52] With numerical simulation and calculation with consideration of light absorption and recombination rate, we further estimated the photoconductivity of Si nanowires, which is on the same order of magnitude of that obtained from the fitting. It suggests the good feasibility of the modeling.…”

Section: Resultsmentioning

confidence: 95%

Visible light–gated reconfigurable rotary actuation of electric nanomotors

Liang

Fan

2018

Sci. Adv.

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Section: Resultsmentioning

confidence: 95%

Visible light–gated reconfigurable rotary actuation of electric nanomotors

Liang

Fan

2018

Sci. Adv.

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“…Mid-band gap Fermi-level pinning and, thus, high surface state density are well-known problems for III-V semiconductor materials and even more so for GaAs NWs [47], [48]. Therefore, different surface passivation techniques have been employed to reduce the surface density of states and surface recombination, such as chemical passivation using sulfur-based solutions [49], [50] or epitaxial passivation by growing an AlGaAs layer [51].…”

Section: Core-shell Junction Positionmentioning

confidence: 99%

Influence of Electrical Design on Core–Shell GaAs Nanowire Array Solar Cells

Wenas

et al. 2015

IEEE J. Photovoltaics

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In this paper, we perform coupled optical and electrical simulation for core-shell junction GaAs nanowire array solar cells to obtain the important physical insights of how the cell efficiency is affected by various key parameters, including core-shell doping, junction position, carrier lifetime, and surface effect. Our study reveals that junction design in core-shell nanowires in terms of doping and geometry is largely restricted and affected by the small nanowire dimension, requiring different optimization from those of conventional planar solar cells. To take advantage of the radial p-n junction, high core and shell doping are essential to achieve effective radial carrier collection. Moreover, maintaining thin nanowire shell could effectively offset the detrimental surface effect for improved efficiency.

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“…We apply the results obtained by Sze [10] to examine the operation of our device in negative polarity. In our case, due to the nominally intrinsic nature of the NWs, and their inherent size dependent properties favouring depletion [32,33], it is reasonable to expect Figure 2b shows the graphs for the measured current for ( ) ∼ √ − , which provided a better fit than ( ) ∼ ( − ) 2 (see the second fit in Supporting Information Figure S3). This suggests that for most of the applied voltages the device is beyond flat-band conditions.…”

Section: Resultsmentioning

confidence: 76%

Highly sensitive piezotronic pressure sensors based on undoped GaAs nanowire ensembles

Calahorra

Husmann

Bourdelain

et al. 2019

J. Phys. D: Appl. Phys.

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Semiconducting piezoelectric materials have attracted considerable interest due to their central role in the emerging field of piezotronics, where the development of a piezo-potential in response to stress or strain can be used to tune the band structure of the semiconductor, and hence its electronic properties.This coupling between piezoelectricity and semiconducting properties can be readily exploited for force or pressure sensing using nanowires, where the geometry and unclamped nature of nanowires render them particularly sensitive to small forces. At the same time, piezoelectricity is known to manifest more strongly in nanowires of certain semiconductors. Here, we report the design and fabrication of highly sensitive piezotronic pressure sensors based on GaAs nanowire ensemble sandwiched between two electrodes in a back-to-back diode configuration. We analyse the current-voltage characteristics of these nanowire-based devices in response to mechanical loading in light of the corresponding changes to the device band structure. We observe a high piezotronic sensitivity to pressure, of ~7800 meV/MPa. We attribute this high sensitivity to the nanowires being fully depleted due to the lack of doping, as well as due to geometrical pressure focusing and current funnelling through polar interfaces.

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Surface depletion effects in semiconducting nanowires having a non-uniform radial doping profile

Cited by 15 publications

References 30 publications

Visible light–gated reconfigurable rotary actuation of electric nanomotors

Visible light–gated reconfigurable rotary actuation of electric nanomotors

Influence of Electrical Design on Core–Shell GaAs Nanowire Array Solar Cells

Highly sensitive piezotronic pressure sensors based on undoped GaAs nanowire ensembles

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