Structural and optical characterization of GaAs nano-crystals selectively grown on Si nano-tips by MOVPE

Skibitzki, Oliver; Prieto, Iván; Kozak, Roksolana; Capellini, Giovanni; Zaumseil, P.; Dasilva, Yadira Arroyo Rojas; Rossell, Marta D.; Erni, Rolf; Känel, H. von; Schroeder, Thomas

doi:10.1088/1361-6528/aa5ec1

Cited by 21 publications

(18 citation statements)

References 36 publications

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“…Further fabrication details can be found in refs. [43][44][45] In the following, we name as "sample A" the InP-NCs/Si-tips and as "sample B" the Gr/InP-NCs/Si-tips. Scanning electron microscopy (SEM) tilted- Electrical measurements were performed inside a Zeiss LEO 1430 SEM chamber in high vacuum (< 10 -6 Torr) and at room temperature.…”

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confidence: 99%

Graphene enhanced field emission from InP nanocrystals

et al. 2017

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We report the observation of field emission (FE) from InP nanocrystals (NCs) epitaxially grown on an array of p-Si nanotips. We prove that FE can be enhanced by covering the InP NCs with graphene. The measurements are performed inside a scanning electron microscope chamber with a nano-controlled W-thread used as an anode. We analyze the FE by Fowler-Nordheim theory and find that the field enhancement factor increases monotonically with the spacing between the anode and the cathode. We also show that InP/p-Si junction has a rectifying behavior, while graphene on InP creates an ohmic contact. Understanding the fundamentals of such nanojunctions is key for applications in nanoelectronics.

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confidence: 99%

Graphene enhanced field emission from InP nanocrystals

et al. 2017

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“…The main steps for the fabrication of the substrates include deposition of SiO 2 and Si 3 N 4 , lithography, dry and wet etching, chemical mechanical planarization, and final wet cleaning. More details are given by Skibitzki et al (2017) and Niu et al (2016).…”

Section: Methodsmentioning

confidence: 99%

“…The epitaxial growth of GaAs with the zincblende/sphalerite ZnS-type structure [space group F " 4 43m, Pearson symbol cF8, lattice parameter a = 0.5654 nm, with Ga at the Wyckoff position (4a) 0, 0, 0 and As at (4c) 1 4 , 1 4 , 1 4 (Villars & Cenzual, 2016/17)] on Si with the diamond C-type structure [Fd " 3 3m, cF8, a = 0.5430 nm, with two face-centred cubic (f.c.c.) sublattices shifted by 1 4 , 1 4 , 1 4 along the body diagonal (Villars & Cenzual, 2016/17)] is, however, challenging because of the significant lattice mismatch of 4.1% and the difference in thermal expansion coefficients (Bolkhovityanov & Pchelyakov, 2008;Prieto, Kozak, Skibitzki, Rossell, Zaumseil et al, 2017;Skibitzki et al, 2017). This leads to the formation of various crystal imperfections (dislocations, stacking faults, twins etc.)…”

Section: Introductionmentioning

confidence: 99%

A tool for automatic recognition of [110] tilt grain boundaries in zincblende-type crystals

et al. 2017

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The local atomic structure of [110] tilt grain boundaries (GBs) formed in $100 nm-sized GaAs nanocrystals, which crystallize in the non-centrosymmetric zincblende-type structure with face-centred cubic lattice symmetry, was imaged and analysed by means of high-resolution high-angle annular dark-field scanning transmission electron microscopy (HAADF-STEM). The nanocrystals were grown by metal-organic vapour phase epitaxy on top of (001) Si nanotips embedded in an oxide matrix. This paper introduces an automatic analysis method and corresponding processing tool for the identification of the GBs. The method comprises (i) extraction of crystallographic parameters, i.e. misorientation angles and transformation matrices for the different crystal parts (grains/ twins) observed by HAADF-STEM, and (ii) determination of their common plane(s) by modelling all possible intersections of the corresponding threedimensional reciprocal lattices. The structural unit model is also used to characterize the GB structures and to validate the data obtained by the developed algorithm. research papers 1300 Roksolana Kozak et al. A tool for automatic recognition of [110] tilt grain boundaries

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“…There are, however, several technical difficulties to overcome, such as dislocations induced by the lattice mismatch, the cracks due to the differences in the thermal expansion coefficient, and the anti-phase boundary resulting from the growth of the polar III–V compounds on nonpolar Si. Many attempts have been made to solve these problems, and it has been found that selective area growth (SAG) is one of the effective ways of suppressing the propagation of dislocations and cracks as well as lowering the density of the anti-phase boundary 4–7 . The III–V compounds grown via SAG is in the form of quantum dots 6,8–16 or nanowires 10,11,17 .…”

Section: Introductionmentioning

confidence: 99%

Equilibrium crystal shape of GaAs and InAs considering surface vibration and new (111)B reconstruction: ab-initio thermodynamics

Yeu

Han

Park

et al. 2019

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This work reports on the theoretical equilibrium crystal shapes of GaAs and InAs as a function of temperature and pressure, taking into account the contribution of the surface vibration, using ab-initio thermodynamic calculations. For this purpose, new (111)B reconstructions, which are energetically stable at a high temperature, are suggested. It was found that there was a feasible correspondence between the calculated equilibrium shapes and the experimental shapes, which implied that the previous experimental growth was performed under conditions that were close to equilibrium. In this study, GaAs and InAs were selected as prototype compound semiconductors, but the developed calculation methodology can also be applied to other III–V compound semiconductor materials.

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Structural and optical characterization of GaAs nano-crystals selectively grown on Si nano-tips by MOVPE

Cited by 21 publications

References 36 publications

Graphene enhanced field emission from InP nanocrystals

Graphene enhanced field emission from InP nanocrystals

A tool for automatic recognition of [110] tilt grain boundaries in zincblende-type crystals

Equilibrium crystal shape of GaAs and InAs considering surface vibration and new (111)B reconstruction: ab-initio thermodynamics

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