15 research outputs found
A low-temperature X-ray diffraction study of the CU2ZNSNSE4 thin films on a mo foil substrate
The Zn-rich and Cu-poor Cu2ZnSnSe4 (CZTSe) thin films were produced on flexible Mo foil by the three-step process. The XRD analysis demonstrates that the film mainly consists of CZTSe tetragonal phase and can contained ZnSe secondary phase. In addition, there are reflections of Mo and MoSe2. It was found that the crystal structure of the CZTSe films deposited on a Mo foil substrate was stable at low temperatures. The lattice parameters a and c are linearly decreasing in rang 5.707–5.637 and 11.394–11.298 A, respectively, with a change in the temperature of the X-ray measurements from the 300 to 100 K. The thermal expansion coefficient is 9.87 ? 10–6 K–1
Investigation of thin films MgAl2O4, deposited on the Si substrates by vacuum thermal evaporation
The article presents data on the study of X-ray structural and microstructural characteristics of thin films of aluminum-magnesium spinel MgAl2O4 deposited on Si substrates by vacuum thermal evaporation. MgAl2O4 films have a polycrystalline rhombic structure. The values of the unit cell parameters of MgAl2O4 are calculated. Scanning electron and atomic force microscopy showed that MgAl2O4 films have a densely packed structure without cracks. Physical characteristics and good adhesion of MgAl2O4 thin films to silicon substrates indicate their possibility of using in devices of opto- and microelectronics
Topography of the surface of precursors Cu-Zn-Sn layered electrochemically deposited on Mo / glass and Mo-foil
Рассмотрена возможность построения тонкопленочных фотопреобразователей на основе нетоксичных и доступных компонентов Cu2ZnSnSe4 на подложках из стекла и гибкой металлической фольги, которые открывают возможности применения гибких тонкопленочных фотопреобразователей. Полученные структуры исследованы методамиатомно-силовой и сканирующей электронной микроскопии.We discuss the abibility to construct thin-film solar cells based on non-toxic and available Cu2ZnSnSe4 components on glass substrates and flexible metal foil, which opens the possibility of application of flexible solar cells. The structures were studied by atomic force and scanning electron microscopy combined with energy dispersive spectrometry of secondary electrons
ИССЛЕДОВАНИЕ ТОНКИХ ПЛЕНОК Cu2ZnSnSe4 МЕТОДОМ АТОМНО-СИЛОВОЙ МИКРОСКОПИИ
In comparison to the traditional use of glass substrates, the thin films onto metal substrates offer improved device cooling, economical large-scale roll-to-roll processing, and applicability in lightweight, as well as flexible products. However, unlike glass, metal foils tend to exhibit rough surfaces. This article studies the substrate-type (Mo/glass and Мо-foil) effect on the topographic characteristics of the Cu2ZnSnSe4 films by atomic force microscopy (AFM). Cu2ZnSnSe4 thin films were prepared by the electrodeposition of stack copper/tin/copper/zinc (Cu/Sn/Cu/Zn) precursors, followed by selenization. AFM wasused to study the topographic characteristics of thin films, including grain size, surface roughness, and maximum height of the profile. It is shown that the films obtained on Mo/glass and Mo-foil substrates have similar roughness and in the both cases the grain structure is formed. The Cu2ZnSnSe4 thin films show relatively high surface roughness and maximum roughness profile height compared to Cu-Zn-Sn precursors. The increase in the surface roughness of the films was caused by the growth of grains during annealing and selenization processes.Методом атомно-силовой микроскопии исследовано влияние типа подложки на структуру и шероховатость поверхности пленок Cu2ZnSnSe4, полученных методом селенизации металлических прекурсоров Cu-Zn-Sn на подложках из стекла с подслоем молибдена и молибденовой фольги (Мо/стекло, Мо-фольга). Обнаружено, что пленки Cu2ZnSnSe4 на подложках Мо/стекло и Мо-фольга имеют близкие значения шероховатости и зернистую структуру. Пленки Cu2ZnSnSe4 имеют более высокие значения шероховатости и максимальной высоты неровности профиля, чем металлические прекурсоры Cu-Zn-Sn. Увеличение шероховатости при формировании пленок Cu2ZnSnSe4 из прекурсоров происходит за счет роста зерен в процессе отжига и селенизации
Temperature dependence of raman spectra of Cu2ZnSnSe4 thin films
For CZTSe tetragonal structured film prepared by selenization of layer-by-layer and pre-annealed Cu-Zn-Sn
metal precursor on flexible Ta substrate, temperature dependencies of the position and full width at a half
maximum for the A-modes (171 and 195 cm-1
) were obtained in the 24–290 K temperature range and were
successfully approximated by the linear and Klemens model equations. From the obtained dependencies, the
coefficients of the Klemens equations, as well as the temperature coefficients for Raman shifts and peak
widths were calculated
Influence of Substrate Material on the Microstructure of Cu2ZnSnS4 Thin Films
Abstract: Cu2ZnSnS4 (CZTS) thin films were synthesized from subsequently electrochemically deposited Cu/Sn/Zn metal precursors on Mo, Ti and Ta foil substrates by sulfurization at 450 °C for 1 h. Polycrystalline CZTS films with the kesterite structure were formed on each substrate. The lattice parameters of CZTS in films are a = 5.414 ± 0.003 Å, c = 10.85 ± 0.02 Å for Mo substrate, a = 5.415 ± 0.001 Å, c = 10.78 ± 0.01 Å for Ti substrate and a = 5.420 ± 0.003 Å, c = 10.84 ± 0.01 Å for Ta substrate. The CZTS have an average grain sizes of about 53, 80 and 68 nm for Mo, Ti and Ta substrate respectively. The films showed two types of crystallites corresponding to CZTS and CuS phases. The films exhibit Cu-enrichment and the presence of CuS and ZnS secondary phases. Binary sulfides MoS2 and TaS2 were found in the films deposited on Mo and Ta substrates respectively
Influence of Substrate Material on the Microstructure of Cu2ZnSnS4 Thin Films
Abstract: Cu2ZnSnS4 (CZTS) thin films were synthesized from subsequently electrochemically deposited Cu/Sn/Zn metal precursors on Mo, Ti and Ta foil substrates by sulfurization at 450 °C for 1 h. Polycrystalline CZTS films with the kesterite structure were formed on each substrate. The lattice parameters of CZTS in films are a = 5.414 ± 0.003 Å, c = 10.85 ± 0.02 Å for Mo substrate, a = 5.415 ± 0.001 Å, c = 10.78 ± 0.01 Å for Ti substrate and a = 5.420 ± 0.003 Å, c = 10.84 ± 0.01 Å for Ta substrate. The CZTS have an average grain sizes of about 53, 80 and 68 nm for Mo, Ti and Ta substrate respectively. The films showed two types of crystallites corresponding to CZTS and CuS phases. The films exhibit Cu-enrichment and the presence of CuS and ZnS secondary phases. Binary sulfides MoS2 and TaS2 were found in the films deposited on Mo and Ta substrates respectively
Microstructure and Raman scattering of Cu2ZnSnSe4 thin films deposited onto flexible metal substrates
Abstract—Cu2ZnSnSe4 thin films are produced by selenizing electrochemically layer-by-layer deposited and
preliminarily annealed Cu–Zn–Sn precursors. For flexible metal substrates, Mo and Ta foils are used. The
morphology, elemental and phase compositions, and crystal structure of Cu2ZnSnSe4 films are studied by
scanning electron microscopy, X-ray spectral microanalysis, X-ray phase analysis, and Raman spectroscopy
Microstructure and Raman scattering of Cu2ZnSnSe4 thin films deposited onto flexible metal substrates
Abstract—Cu2ZnSnSe4 thin films are produced by selenizing electrochemically layer-by-layer deposited and
preliminarily annealed Cu–Zn–Sn precursors. For flexible metal substrates, Mo and Ta foils are used. The
morphology, elemental and phase compositions, and crystal structure of Cu2ZnSnSe4 films are studied by
scanning electron microscopy, X-ray spectral microanalysis, X-ray phase analysis, and Raman spectroscopy