8/13/2023 0 Comments Sr element common ionAn iron ion with a charge of 8 is not very likely, therefore, the octet rule is not applicable to transition elements. In order for an element such as iron (Fe) to achieve the same noble gas configuration of argon (Ar), it would need to lose 6 electrons in the 3 d subshell and 2 electrons in the 4s subshell. This is because the transition metals have electrons in d subshell and do not follow the octet rule. Notice that there is no simple pattern for transition metal ions (or for the larger main group elements) as there is with the main group ions. Lett.\) shows the characteristic charges for some of these ions. Uchida, Optical study of the Sr 14−xCa xCu 24O 41 system: evidence for hole-doped Cu 2O 3 ladders. Shi, Doping effect on electronic transport properties of Sr 14(Cu 1−yM y) 24O 41 (M = Zn, Ni). Ho, Interfacial hydrothermal synthesis of 2O core-shell microspheres with enhanced visible-light-driven photocatalytic activity. Zhou, Hollow CuO nanoparticles in carbon microsphere prepared from cellulose-cuprammonium solution as anode materials for Li-ion batteries. Sawatzky, Electronic structure of Cu 2O and CuO. Smart, Resolving surface chemical states in XPS analysis of first row transition metals, oxides and hydroxides: Sc, Ti, V. Yoshito, Accurate determination of composite crystal structure of incommensurately modulated Sr 14Cu 24O 41 using the Akaike information criterion. Akimitsu, Temperature dependence of atomic modulation in the incommensurate composite crystal structure of (Sr 2Cu 2O 3) 0.70CuO 2, ‘Sr 14Cu 24O 41.’ Phys. Conder, Spin-gap evolution upon Ca doping in the spin-ladder series Sr 14−xCa xCu 24O 41 studied by inelastic neutron scattering. Akimitsu, Modulated structure analysis of composite crystal (Sr 2Cu 2O 3) 0.70CuO 2, “Sr 14Cu 24O 41” with two-legged ladder and one-dimensional chain. Kobayashi, Microscopic origin of dimerizatino in the CuO 2 in Sr 14Cu 24O 41. Gardner, Spin dynamics of edge-sharing spin chains in SrCa 13Cu 24O 41. Shi, Structure and electric transport properties of the spin ladder compound Sr 14(Cu 0.97M 0.03) 24O 41 (M=Zn,Ni,Co). Uchida, The electronic properties of cuprate ladder materials. Roth, A new layered cuprate structure-type, (A 1−xA’ x) 14Cu 24O 41. Harlow, The incommensurate structure of (Sr 14−xCa x)Cu 24O 41 (0 < x ∼ 8) a superconductor byproduct. Chiba, Electrical properties and microstructure of CuO ceramics containing small amounts of alkaline earth elements. Saito, Ceramic resistors based on copper oxides. Consider the common ion effect of OH - on the ionization of ammonia. The common ion effect suppresses the ionization of a weak base by adding more of an ion that is a product of this equilibrium. Li, Characterization of Cu 3N/CuO thin films derived from annealed Cu 3N for electrode application in Li-ion batteries. The common ion effect of H 3 O on the ionization of acetic acid. Zhang, Electrical conductivity and temperature sensitivity of W/F-modified CuO-based ceramics. Rajapakse, Photocurrent enhancement of d.c. Tilley, Stabilized solar hydrogen production with CuO/CdS peterojunction thin film photocathodes. Zhang, Electrical properties of Nb/Al-doped CuO-based ceramics for NTC thermistors. Li, Electrical properties and temperature sensitivity of B-substituted CuO-based ceramics for negative temperature coefficient thermistors. Li, High electrochemical performance and lithiation–delithiation phase evolution in CuO thin films for Li-ion storage. Tang, Improvement of memristive properties in CuO films with a seed Cu layer. Danis, Thin copper oxide films prepared by ion beam sputtering with subsequent thermal oxidation: application in chemiresistors. Morris, Nanoscale metal oxide-based heterojunctions for gas sensing: a review. Yang, Room temperature growth of CuO nanorod arrays on copper and their application as a cathode in dye-sensitized solar cells. Chowdhury, Antibacterial and natural room-light driven photocatalytic activities of CuO nanorods. Wang, Identifying copper vacancies and their role in the CuO based photocathode for water splitting. Ji, A CuO–ZnO nanostructured p–n junction sensor for enhanced N-butanol detection. Diao, High catalytic activity of CuO nanorods for oxidation of cyclohexene to 2-cyclohexene-1-one.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |