Pulsed laser deposition of Zn(O,Se) layers in nitrogen background Pressure

Abstract: Zinc oxy-selenide Zn(O,Se) is a novel material, that can replace the toxic CdS buffer layer in thin film solar cells and other optoelectronic devices. In this paper a systematic study of the structural, optical and electrical properties of Zn(O,Se) layers, grown by pulsed laser deposition under 50 mTorr of nitrogen background pressure, over a wide range of the substrate temperature, from RT to 600 °C, is reported. XRD, Raman, HR-SEM, XPS, UV-Vis techniques and Hall effect measurements have been used to investi… Show more

“…The first peak at 530.6 eV refers to the oxygen ion from the Zn-O bond in the lattice of ZnO [ 37 ], leading to zinc atoms existing in the form Zn-O [ 38 ]. The second peak at 531.2 eV is associated with the form of OH existing on the catalysts [ 39 ]. The third peak at 532.5 eV is related to the chemisorbed oxygen on the catalysts [ 40 ].…”

MOFs-Derived Zn-Based Catalysts in Acetylene Acetoxylation

“…The first peak at 530.6 eV refers to the oxygen ion from the Zn-O bond in the lattice of ZnO [ 37 ], leading to zinc atoms existing in the form Zn-O [ 38 ]. The second peak at 531.2 eV is associated with the form of OH existing on the catalysts [ 39 ]. The third peak at 532.5 eV is related to the chemisorbed oxygen on the catalysts [ 40 ].…”

MOFs-Derived Zn-Based Catalysts in Acetylene Acetoxylation

“…4a exhibit two characteristic peaks from Zn 2p 3/2 and Zn 2p 1/2 at 1021.5 and 1044.6 eV, respectively, indicating the presence of Zn 2+ in the synthesized materials. 43–45 The Ti 2p XPS spectra in Fig. 4b also display two peaks at 458.5 and 468.1 eV corresponding to Ti 2p 3/2 and Ti 2p 1/2 from Ti 4+ in the synthesized oxides.…”

Creation of a facile heterojunction in Co/ZnO–TiO₂ for the photocatalytic degradation of alizarin S

“…The extensive analysis confirms the nature of mixed LO phonon modes of heterostructure photoanode. A small hump at 570 cm −1 was assigned to intrinsic Se vacancies in ZnSe as a result of its non‐stoichiometric composition due to the binding of Zn with O in the TiO 2 lattice [35,36] …”

“…A small hump at 570 cm À 1 was assigned to intrinsic Se vacancies in ZnSe as a result of its nonstoichiometric composition due to the binding of Zn with O in the TiO 2 lattice. [35,36] Interestingly, in the CdS/ZnSe/TiO 2 photoanode, the peak associated with CdS was less intense and broader compared to the ZnSe deposition over the TiO 2 and causes the main vibration mode of E g (TiO 2 ) to position out with diminutive shift (about 6 cm À 1 ) for the heterostructure samples. [37] By considering that the broad E g anatase mode at 148 cm À 1 is associated with the SeÀ Zn(Cd)À OÀ TiÀ O vibration, the presence of ZnSe and CdS on the TiO 2 lattice could probably cause a vibration distortion resulting in broadband.…”

ZnSe and CdS Co‐Sensitized TiO₂Nanorod Arrays as Photoanodes for Bias‐Free Solar Hydrogen Evolution