GaP/Si(111) Nanowire Crystals Synthesized by Molecular-Beam Epitaxy with Switching between the Hexagonal and Cubic Phases

Shtrom I. V.; Sibirev N. V.; Ubiivovk E. V.; Samsonenko Yu. B.; Khrebtov A. I.; Reznik R. R.; Bouravleuv A. D.; Cirlin G. E.

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GaP/Si(111) Nanowire Crystals Synthesized by Molecular-Beam Epitaxy with Switching between the Hexagonal and Cubic Phases

机译：间隙/ Si（111）通过分子束外延合成的纳米线晶体，在六边形和立方相之间切换

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A theoretical and experimental description of the synthesis of GaP nanowire crystals by molecularbeam epitaxy on Si(111) substrates with the use of gold as a catalyst is presented. The ratio between the fluxes of materials to be deposited and the substrate temperature are varied for a short time during nanowire synthesis in order to analyze the possibility of producing nanoinclusions of different polytypes. It is established that variations in the ratio between the fluxes of materials to be deposited and in the growth temperature bring about the controllable formation of inclusions, among them are structurally cubic crystalline regions. The inclusions are several nanometers thick.

机译：通过使用作为催化剂的Si（111）衬底的分子束外延对Si（111）衬底的间隙纳米线晶体合成的理论和实验描述。在纳米线合成期间待沉积的材料助熔剂和衬底温度之间的比例在短时间内变化，以分析产生不同聚晶体的纳米过程的可能性。建立了待沉积材料的助熔剂和生长温度之间的比率的变化来带来可控制的夹杂物的形成，其中包括立方晶区域。夹杂物是几纳米厚。

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《Semiconductors》 |2018年第1期|共5页
作者
Shtrom I. V.; Sibirev N. V.; Ubiivovk E. V.; Samsonenko Yu. B.; Khrebtov A. I.; Reznik R. R.; Bouravleuv A. D.; Cirlin G. E.;
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St Petersburg Acad Univ Russian Acad Sci St Petersburg 194021 Russia;

St Petersburg State Univ St Petersburg 199034 Russia;

St Petersburg State Univ St Petersburg 199034 Russia;

St Petersburg Acad Univ Russian Acad Sci St Petersburg 194021 Russia;

St Petersburg Acad Univ Russian Acad Sci St Petersburg 194021 Russia;

St Petersburg Acad Univ Russian Acad Sci St Petersburg 194021 Russia;

St Petersburg Acad Univ Russian Acad Sci St Petersburg 194021 Russia;

St Petersburg Acad Univ Russian Acad Sci St Petersburg 194021 Russia;

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中图分类半导体物理学;
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1. GaP/Si(111) Nanowire Crystals Synthesized by Molecular-Beam Epitaxy with Switching between the Hexagonal and Cubic Phases [J] . Shtrom I. V., Sibirev N. V., Ubiivovk E. V., Semiconductors . 2018,第1期

机译：间隙/ Si（111）通过分子束外延合成的纳米线晶体，在六边形和立方相之间切换
2. Self-Catalyzed MBE-Grown GaP Nanowires on Si(111): V/III Ratio Effects on the Morphology and Crystal Phase Switching [J] . Fedorov V. V., Bolshakov A. D., Dvoretckaia L. N., Semiconductors . 2018,第16期

机译：Si（111）上的自催化的MBE-生长的间隙纳米线：V / III比对形态和晶相切换的影响
3. Influences of residual oxygen impurities, cubic indium oxide grains and indium oxy-nitride alloy grains in hexagonal InN crystalline films grown on Si(111) substrates by electron cyclotron resonance plasma-assisted molecular beam epitaxy [J] . T. Yodo, T. Nakamura, T. Kouyama, Physica Status Solidi. C, Conferences and critical reviews . 2005,第7期

机译：电子回旋共振等离子体辅助分子束外延对Si（111）衬底上生长的六角形InN晶体薄膜中残余氧杂质，立方氧化铟晶粒和氮氧化铟合金晶粒的影响
4. Surface potential response from GaP nanowires synthesized with mixed crystal phases [C] . B Kyeyune, E Soboleva, P Geydt, International Conference PhysicA.SPb . 2020

机译：具有混合晶相合成的间隙纳米线的表面电位响应
5. Molecular Beam Epitaxy Growth of Hexagonal Boron Nitride/Graphene Heterostructures, Hexagonal Boron Nitride Layers and Cubic Boron Nitride Nanodots [D] . Khanaki, Alireza. 2017

机译：六方氮化硼/石墨烯异质结构，六方氮化硼层和立方氮化硼纳米点的分子束外延生长
6. Lattice parameter accommodation between GaAs(111) nanowires and Si(111) substrate after growth via Au-assisted molecular beam epitaxy [O] . Anton Davydok, Steffen Breuer, Andreas Biermanns, 2012

机译：通过Au辅助分子束外延生长后的GaAs（111）纳米线和Si（111）衬底之间的晶格参数调节
7. Cubic-to-hexagonal phase transition and optical properties of chemically synthesized ZnS nanocrystals [O] . Kole Arup Kanti, Kumbhakar Pathik 2012

机译：化学合成的ZnS纳米晶的立方到六方相变和光学性质

GaP/Si(111) Nanowire Crystals Synthesized by Molecular-Beam Epitaxy with Switching between the Hexagonal and Cubic Phases

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