According to the phase diagram of the In-Sb-O ternary system [19]

According to the phase diagram of the In-Sb-O ternary system [19], the binary In-Sb system is in equilibrium with In2O3. A tie-line between the LOXO-101 cost two phases (In2O3 and In-Sb system) indicates that the oxygen concentration dominates the phase appearance in the binary system. Specifically, relatively high oxygen content provides Sb with an InSb phase, even with a nominal Sb deficit from stoichiometric InSb. This suggestion is consistent with the present result. Sb with an InSb phase appears at relatively high oxygen concentrations exceeding 61 at.%, and less oxygen is needed to provide In2O3 with an InSb phase. It is therefore found

that the difference in phase appearance (Sb and In2O3) (Figure 4) is due to the different inclusions of oxygen. In these results, the composite containing Sb does

not achieve the present objective, since the residual Sb reduces the transparency. To avoid the inclusion of Sb, the sputtering target needs a different setup, such as excess In or less oxygen in the composite target, made of ceramic TiO2 with InSb chips. A composite with InSb and single-phase TiO2 cannot be obtained in the current study. However, the carrier mobility of the phase mixture of TiO2 and In2O3 exceeds that of the pure TiO2[20]. Thus, the inclusion of In2O3 is considered to be useful for the current interest. Figure 4 Relation between InSb-originating phases (InSb, Sb, and In 2 O MLN2238 3 ), annealing temperature, and InSb chip number. Black squares indicate single-phase In2O3; triangles indicate a phase mixture of InSb and In2O3; the red square indicates single-phase InSb; dots indicate a phase mixture of InSb and Sb,

and circles indicate no relating peaks or amorphous. The dotted line indicates dominant phase change from Sb to In2O3. Figure 5 Compositional plane of phase appearance in InSb-added TiO 2 thin films. Dots indicate a phase mixture of InSb, TiO2, and In2O3; squares indicate a phase mixture of InSb, TiO2, and Sb; triangles indicate a phase mixture of TiO2 and Sb; rhombuses indicate single-phase TiO2; and pentagons indicate amorphous. Violet indicates an Sb/In ratio of 1.00 to 1.10; blue indicates 0.90 to 0.99; green indicates 0.60 to 0.89; others yellow indicates 0.40 to 0.59; and red indicates less than 0.40. Figure 6 depicts a typical optical absorption spectrum for composite film with InSb, TiO2, and In2O3. For comparison, the absorption JAK inhibitor spectra of TiO2 and In2O3 are also presented in the figure. The absorption edge in both TiO2 and In2O3 appears in the UV range, while the composite film containing 18 at.% (In + Sb) exhibits an obvious shift to the vis-NIR range, thus absorb a desirable energy region for high conversion efficiency [21]. The composite film contains Sb deficit in InSb with a ratio Sb/In of 0.7. Hence, the actual concentration of InSb compound is estimated to be 15 at.%, assuming an Sb reacts fully to form InSb compound.

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