Patterns obtained for the distinct perovskites prepared by unique procedures. Figure 1. X-Ray diffraction patterns obtained for the distinct perovskites ready by different methods.Overview five of 12 operties of perovskite powders and Scaffold Library Formulation FeTiO3 prepared by diverse experimental situations. operties of perovskite powders and FeTiO3 ready by different experimental circumstances. Critique perovskite powders and FeTiO3 prepared by diverse experimental circumstances. five of 12 operties of Assessment five Viral Proteins web Crystallite operties of perovskite powders and FeTiO3 ready by unique experimental situations.SEM of 12 Crystallite Unit Cell two Cell 2 Cell Parameters/nm Eg/eV Parameters/nm Eg/eV EDS Unit Cell EDS operties of perovskite powders and FeTiO3 prepared by unique experimental situations.SEM Crystallite Size/nm Size/nm Unit Cell two and FeTiO3 prepared by diverse experimental circumstances.SEM five of 12 Cell Parameters/nm Eg/eV EDS opertiesNanomaterials 2021, 11, 3142 of Crystallite Size/nm perovskite powders Cell Parameters/nm Eg/eV Unit Cell 2 EDS operties of perovskite powders and FeTiO3 ready by unique experimental conditions.SEM Crystallite Size/nm a = 0.9783 0.9783 Unit Cell 2 and FeTiO3=prepared by different experimental situations.SEM Cell Parameters/nm Eg/eV EDS a operties of perovskite powders Crystallite Size/nmUnit Cell two EDS SEM a = 1.0010 70.74 Orthorhombic of perovskite0.9783 and FeTiO ready b powders two.20 Fe/Ti = 0.7 Crystallite Table 1. Physical propertiesCell Parameters/nm 3Eg/eV by diverse experimental circumstances. 70.74 Orthorhombic Cell Parameters/nm Eg/eV b = 1.0010 two.20 Fe/Ti = 0.7 Size/nm Unit Cell two EDS SEM a = 0.9783 Crystallite 70.74 Orthorhombic Cell Parameters/nm Eg/eV b = 0.3745 two.20 Fe/Ti = 0.7 c 1.0010 Size/nm Perovskite/ c = 0.3745 Unit Cell 2 EDS SEM a = 0.9783 70.74 Preparation Orthorhombic b = 21.0010 Cell = 0.3745 2.20 Fe/Ti = 0.7 Crystallite Size/nm c Eg/eV EDS SEM Unit a = 0.9783 Cell Parameters/nm two.20 Size/nm 70.74 Strategy 1 Orthorhombic b = 0.3745 = 1.0010 Fe/Ti = 0.7 c = 0.9783 a = 1.0010 70.74 Orthorhombic b = 0.3745 two.20 Fe/Ti = 0.7 c 0.5571 0.5571 a = 0.9783 70.74 Orthorhombic b = 0.3745 = 1.0010 2.20 Fe/Ti = 0.7 c 0.7842 a = 0.5571a 32.15 Orthorhombic b 1.0010 two.30 La/Fe = 1.three 70.74 Fe/Ti = 1.3 FeTiO3 32.15 Orthorhombic Orthorhombic b = 0.3745b = 0.9783 2.20 0.7842 La/Fe == 0.7 c = 0.5571 = 1.0010 two.30 70.74 2.20 Fe/Ti 0.7 a = 0.5560 CM 32.15 Orthorhombic b = 0.3745c = 0.3745 two.30 La/Fe = 1.three c 0.7842 c = 0.5560 a = 0.5571 32.15 Orthorhombic b = 0.5560 two.30 La/Fe = 1.three c 0.7842 a = 0.5571 32.15 Orthorhombic b = 0.5560 two.30 La/Fe = 1.three c = 0.7842 a = 0.5571 32.15 Orthorhombic b = 0.5560 = 0.7842 two.30 La/Fe = 1.3 c a = 0.5571 32.15 LaFeO3 Orthorhombic b = 0.5560a = 0.5571 2.30 = 0.7842 La/Fe = ten.5 Ba/La = 1.3 c = 0.4009b = 0.7842 three.29 Ba/La ==10.5 32.15 Orthorhombic two.30 La/Fe 1.3 55.12 Cubic a = 0.5560 32.15 Orthorhombic b 0.4009c = 0.5560 two.30 La/Fe = ten.five = 1.three CM 55.12 Cubic a 0.7842 three.29 c Ba/La = 13.five Ti/La Ti/La 13.five 55.12 Cubic a = 0.5560 3.29 c 0.4009 Ba/La = 13.five Ti/La = 10.5 55.12 Cubic a = 0.4009 3.29 Ba/La = 13.5 Ti/La = ten.five 55.12 Cubic a = 0.4009 3.29 Ba/La = 13.5 Ti/La ==10.5 55.12 La0.1 Ba0.9 TiO3 Cubic a = 0.4009 three.29 Ba/La 10.5 Ba/La ==13.5 Ba/La = 13.five 7.6 Cubic 3.29 Ti/La ==10.five Ba/La= 10.5 CM Ti/La 7.six 55.12 Cubic55.12 a = 0.4009a = 0.4009 three.29 0.5670 Ba/La ==13.five a = 0.4009 = 0.5670 Ti/La = 13.five Ba/La three.23 36.36 Hexagonal 55.12 Cubic a = 0.5670 three.29 three.23 Ti/La 7.6 36.36 Hexagonal.