Your search keyword '"Sapunov, Georgiy A."' showing total 3 results

1. Tailoring Morphology and Vertical Yield of Self-Catalyzed GaP Nanowires on Template-Free Si Substrates.

Author

Fedorov, Vladimir V., Berdnikov, Yury, Sibirev, Nickolay V., Bolshakov, Alexey D., Fedina, Sergey V., Sapunov, Georgiy A., Dvoretckaia, Liliia N., Cirlin, George, Kirilenko, Demid A., Tchernycheva, Maria, and Mukhin, Ivan S.

Subjects

NANOELECTROMECHANICAL systems, NANOWIRES, MOLECULAR beam epitaxy, SEMICONDUCTOR nanowires, SILICON nanowires, SEMICONDUCTOR synthesis, GALLIUM phosphide, GALLIUM arsenide

Abstract

Tailorable synthesis of III-V semiconductor heterostructures in nanowires (NWs) enables new approaches with respect to designing photonic and electronic devices at the nanoscale. We present a comprehensive study of highly controllable self-catalyzed growth of gallium phosphide (GaP) NWs on template-free silicon (111) substrates by molecular beam epitaxy. We report the approach to form the silicon oxide layer, which reproducibly provides a high yield of vertical GaP NWs and control over the NW surface density without a pre-patterned growth mask. Above that, we present the strategy for controlling both GaP NW length and diameter independently in single- or two-staged self-catalyzed growth. The proposed approach can be extended to other III-V NWs. [ABSTRACT FROM AUTHOR]

Published

2021

2. XRD Evaluation of Wurtzite Phase in MBE Grown Self-Catalyzed GaP Nanowires.

Author

Koval, Olga Yu., Fedorov, Vladimir V., Bolshakov, Alexey D., Eliseev, Igor E., Fedina, Sergey V., Sapunov, Georgiy A., Udovenko, Stanislav A., Dvoretckaia, Liliia N., Kirilenko, Demid A., Burkovsky, Roman G., Mukhin, Ivan S., and Morellón, Luis

Subjects

SEMICONDUCTOR nanowires, NANOWIRES, WURTZITE, MOLECULAR beam epitaxy, X-ray powder diffraction, TRANSMISSION electron microscopy

Abstract

Control and analysis of the crystal phase in semiconductor nanowires are of high importance due to the new possibilities for strain and band gap engineering for advanced nanoelectronic and nanophotonic devices. In this letter, we report the growth of the self-catalyzed GaP nanowires with a high concentration of wurtzite phase by molecular beam epitaxy on Si (111) and investigate their crystallinity. Varying the growth temperature and V/III flux ratio, we obtained wurtzite polytype segments with thicknesses in the range from several tens to 500 nm, which demonstrates the high potential of the phase bandgap engineering with highly crystalline self-catalyzed phosphide nanowires. The formation of rotational twins and wurtzite polymorph in vertical nanowires was observed through complex approach based on transmission electron microscopy, powder X-ray diffraction, and reciprocal space mapping. The phase composition, volume fraction of the crystalline phases, and wurtzite GaP lattice parameters were analyzed for the nanowires detached from the substrate. It is shown that the wurtzite phase formation occurs only in the vertically-oriented nanowires during vapor-liquid-solid growth, while the wurtzite phase is absent in GaP islands parasitically grown via the vapor-solid mechanism. The proposed approach can be used for the quantitative evaluation of the mean volume fraction of polytypic phase segments in heterostructured nanowires that are highly desirable for the optimization of growth technologies. [ABSTRACT FROM AUTHOR]

Published

2021

3. Structural and Optical Properties of Self-Catalyzed Axially Heterostructured GaPN/GaP Nanowires Embedded into a Flexible Silicone Membrane.

Author

Koval, Olga Yu., Fedorov, Vladimir V., Bolshakov, Alexey D., Fedina, Sergey V., Kochetkov, Fedor M., Neplokh, Vladimir, Sapunov, Georgiy A., Dvoretckaia, Liliia N., Kirilenko, Demid A., Shtrom, Igor V., Islamova, Regina M., Cirlin, George E., Tchernycheva, Maria, Serov, Alexey Yu., and Mukhin, Ivan S.

Subjects

MOLECULAR beam epitaxy, OPTICAL properties, NANOWIRES, SEMICONDUCTOR nanowires, PHOTOLUMINESCENT polymers, TRANSMISSION electron microscopy, OPTOELECTRONIC devices, SILICONES

Abstract

Controlled growth of heterostructured nanowires and mechanisms of their formation have been actively studied during the last decades due to perspectives of their implementation. Here, we report on the self-catalyzed growth of axially heterostructured GaPN/GaP nanowires on Si(111) by plasma-assisted molecular beam epitaxy. Nanowire composition and structural properties were examined by means of Raman microspectroscopy and transmission electron microscopy. To study the optical properties of the synthesized nanoheterostructures, the nanowire array was embedded into the silicone rubber membrane and further released from the growth substrate. The reported approach allows us to study the nanowire optical properties avoiding the response from the parasitically grown island layer. Photoluminescence and Raman studies reveal different nitrogen content in nanowires and parasitic island layer. The effect is discussed in terms of the difference in vapor solid and vapor liquid solid growth mechanisms. Photoluminescence studies at low temperature (5K) demonstrate the transition to the quasi-direct gap in the nanowires typical for diluted nitrides with low N-content. The bright room temperature photoluminescent response demonstrates the potential application of nanowire/polymer matrix in flexible optoelectronic devices. [ABSTRACT FROM AUTHOR]

Published

2020