G A Dubov scite author profile

G A Dubov

5Publications

20Citation Statements Received

121Citation Statements Given

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Yaroslavl State University

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Investigations of nanocrystalline SnS films' surface morphology modification during inductively coupled argon plasma sputtering

Zimin¹,

Горлачев²,

Amirov³

et al. 2013

Semicond. Sci. Technol.

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In this work the investigations of the morphology, structure and chemical composition of nanocrystalline SnS films grown by hot wall deposition method on glass substrates before and after high-density low-pressure inductively coupled argon plasma sputtering were performed using scanning electron microscopy, x-ray diffraction analysis, Raman spectroscopy, and energy-dispersive x-ray spectroscopy. The phenomenon of the surface smoothing for the SnS films with petal-like nanocrystallites during plasma treatment is described and the low sputtering rate for the studied films is discussed.

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Plasma sputtering of polycrystalline Pb_1−xSn_xTe thin films grown on glass substrates using hot wall deposition

Zimin

Горлачев

Гременок

et al. 2014

Semicond. Sci. Technol.

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In this work the investigations of the argon inductively coupled plasma sputtering of the Pb 1−x Sn x Te thin films with the composition variation of x = 0.16-0.95 grown by hot wall deposition technique on glass substrates were carried out. As-grown films had a columnar polycrystalline structure with the grain lateral dimensions of 0.2-5.0 μm, and the dependence of the lattice constant on composition x had a linear behaviour described by the Vegard's law. Energy dispersive x-ray microanalysis showed the presence of 5-8 at.% of oxygen in the films, which can be accumulated from the ambient air or from the substrate in the inter-grain boundaries. A phenomenon of a sputtering rate decrease for the polycrystalline lead tin telluride films in comparison to the single-crystal films is discussed. A novel important phenomenon of the formation of nanostructure arrays on the surface of the Pb 1−x Sn x Te thin films with the dependence on the sputtering rate during plasma treatment is reported.

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Features of the plasma sputtering of polycrystalline Pb1 − x Sn x S films

Zimin

Горлачев

Amirov

et al. 2014

J. Synch. Investig.

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Self-formation of lead telluride nanostructures during argon plasma etching of single-crystal wafers

Dubov

Zimin

Горлачев

et al. 2014

J. Phys.: Conf. Ser.

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Application of abnormally high sputtering rate of PbTe(Te) single crystals during inductively coupled argon plasma treatment for fabrication of nanostructures S P Zimin, E S Gorlachev, I I Amirov et al.Plasma sputtering of polycrystalline Pb1xSnxTe thin films grown on glass substrates using hot wall deposition S P Zimin, E S Gorlachev, V F Gremenok et al. Abstract. In this work we report a phenomenon of PbTe nano-and microstructure selfformation that takes place during dry etching of lead telluride (111)-oriented single-crystal wafers with 4 at.% excess tellurium in RF high-density low-pressure inductively coupled argon plasma. Using scanning electron microscopy and energy dispersive X-ray spectroscopy investigations it is established that during the plasma treatment high sputtering rates are accompanied by active redeposition processes on crystal surface and on the inner side of the Si etching mask resulting in a nanostructure arrays self-formation via vapour-liquid-solid mechanism. ExperimentalPbTe single-crystal ingots were grown in (111) direction using Bridgman method according to a wellestablished technique [1]. Synthesized composition had excess tellurium relative to stoichiometry of 4 at.%. The grown crystals were cut perpendicular to the growth axis in order to obtain disk wafers with the thickness of 3-5 mm, whose surface was polished with diamond paste with chemical polishing finish. Plasma sputtering (dry etching) of the surface of PbTe(Te) disks was performed using a radiofrequency high-density low-pressure inductively coupled plasma (RF ICP) treatment [2][3][4]. Power applied to the inductor of the plasma reactor was 800 W, RF bias power at the substrate was varied in the range of 100-300 W, self-bias negative potential was 85-195 V, argon flow rate was 10 sccm. Series of consecutive surface treatments were carried out with a change in the duration (10-60 s) and bias power. During treatment stencil Si masks with native oxide and 0.6 μm thick SiO2 layer were used, with a typical microgap between the sample and Si surfaces being 1-10 μm. The morphology was studied with scanning electron microscopy (SEM) using Supra 40 Carl Zeiss microscope and local elemental composition was determined from energy dispersive X-ray (EDX) data using INCAx-act Oxford Instruments spectrometer. Results and discussions

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Nanoscale Surface Modification of Polycrystalline Tin Sulphide Films During Plasma Treatment

Zimin¹,

Горлачев²,

Dubov³

et al. 2013

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In this paper, we present a comparative research of the nanoscale modification of the surface morphology of polycrystalline SnS films on glass substrates with two different preferred growth orientations processed in inductively coupled argon plasma. We report a new effect of polycrystalline SnS film surface smoothing during plasma treatment, which can be advantageous for the fabrication of multilayer solar cell devices with SnS absorption layers.

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G A Dubov

Investigations of nanocrystalline SnS films' surface morphology modification during inductively coupled argon plasma sputtering

Plasma sputtering of polycrystalline Pb_1−xSn_xTe thin films grown on glass substrates using hot wall deposition

Features of the plasma sputtering of polycrystalline Pb1 − x Sn x S films

Self-formation of lead telluride nanostructures during argon plasma etching of single-crystal wafers

Nanoscale Surface Modification of Polycrystalline Tin Sulphide Films During Plasma Treatment

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G A Dubov

Investigations of nanocrystalline SnS films' surface morphology modification during inductively coupled argon plasma sputtering

Plasma sputtering of polycrystalline Pb1−xSnxTe thin films grown on glass substrates using hot wall deposition

Features of the plasma sputtering of polycrystalline Pb1 − x Sn x S films

Self-formation of lead telluride nanostructures during argon plasma etching of single-crystal wafers

Nanoscale Surface Modification of Polycrystalline Tin Sulphide Films During Plasma Treatment

Contact Info

Product

Resources

About

Plasma sputtering of polycrystalline Pb_1−xSn_xTe thin films grown on glass substrates using hot wall deposition