The combination of carbon atoms in amorphous carbon included both SP3 hybridization and SP2 hybridization of carbon atoms [64]. Therefore, C–Ti surface contained negatively charged free electrons, which may cause the zeta potential of C–Ti surface to be lower than that of Ti surface. Zeta ...
respectively tetrahedral structures (hybridization sp~3), corresponding to the two types of ligands, HL~1 for T_d geometry and HL~2 for the D_(4h) and corespond to the following molecular formulae: [Cu(C_(18)H_(10)N3S3O8Na2)(H2O)Cl]路2HCl and [Cu(C_(18)H_(10)N3S3O8Na2)2...
This is because TSS-mediated transport is commonly hindered by the conductance of bulk electrons due to imperfect electron-hole hybridization, intrinsic Se/Te vacancies or antisite defects in real TI samples6–11. Such bulk dominance often determines a non-TSS metallic transport in the TI devices,...
Adakitic melt hybridization during interaction with the suprasubduction zone metasomatized mantle wedge peridotites result in high siderophile and chalcophile elements and higher K than more typical lower crustal partial melts. 3) The Kal-e-Kafi magma was probably amphibole-bearing eclogitic and/or ...
Higher conductivities can be obtained by simply increasing n and/or the electrical mobility μ. For example, in n-type TCOs, the oxygen vacancies constitute one of the main defects inducing high carrier concentrations. The hybridization of s-orbitals—that compose mainly the conduction band minimum...
The lower bandgap energy is a result of the extra N-atoms connected to the terminal NH2 groups in the form of 1,2,4-triazole, which are different from the usual C3N4 in that they are bridged by a N-atom through sp2 hybridization [42–44]. The construction of heterojunction ...
Except for peak and peak shapes, the density of states of different models is comparable, and the d orbital of the Cu atom overlaps with the d orbital of the Ag atom, resulting in hybridization and a strong interaction. Figure 3d shows the density of states of Cu and Ag atoms in the ...