Synthesis and optical properties of Cr-doped Ba2In2O5 orange-brown oxides

“…Using the same model to our new data given in Table 2 would confirm a water content of x = 0.74. However, this neglects the higher oxygen content of 5.32(4) determined by PND (Section 3.3.4) being in accordance with the charge neutrality regarding the stated heterovalent substitution of In 3+ by Cr 6+ [15]. Taking into account the higher oxygen content of the chromium substituted sample, a water content of x ≈ 0.5 (Ba 2 In 1.8 Cr 0.2 O 5.32(4) (H 2 O) 0.5 ) would be in agreement with the present TGA and the previous chemical analysis [3] results.…”

“…The refined oxygen content of 5.26 (7) at 873 K (E6) and 5.36(4) at 573 K (D20) is unusual for a brownmillerite-type structure. As indium, oxidation state +3, is substituted by chromium, oxidation state +6 [15], the expected oxygen content needs to be higher (5.3) assuming a charge neutral compound. This is in good agreement with the determined oxygen contents.…”

“…The partial replacement of In by Cr forming Ba 2 In 2−x Cr x O 5±δ has shown a massive performance improvement during photocatalytic CO 2 conversion and oxygen transport [2,4]. An important factor responsible for the improvement is that the brownmillerite-type structure favours the oxidation of Cr 3+ to Cr 6+ [15] during preparation in air, hence turning the initially anticipated isovalent doping or substitution into heterovalent doping, causing remarkable structural changes at low and intermediate temperatures [3,4]. For example, thermogravimetric analysis (TGA) and chemical analysis show the water content to increase by a factor of five [3,4].…”

Effects of Cr Doping and Water Content on the Crystal Structure Transitions of Ba2In2O5

“…Using the same model to our new data given in Table 2 would confirm a water content of x = 0.74. However, this neglects the higher oxygen content of 5.32(4) determined by PND (Section 3.3.4) being in accordance with the charge neutrality regarding the stated heterovalent substitution of In 3+ by Cr 6+ [15]. Taking into account the higher oxygen content of the chromium substituted sample, a water content of x ≈ 0.5 (Ba 2 In 1.8 Cr 0.2 O 5.32(4) (H 2 O) 0.5 ) would be in agreement with the present TGA and the previous chemical analysis [3] results.…”

“…The refined oxygen content of 5.26 (7) at 873 K (E6) and 5.36(4) at 573 K (D20) is unusual for a brownmillerite-type structure. As indium, oxidation state +3, is substituted by chromium, oxidation state +6 [15], the expected oxygen content needs to be higher (5.3) assuming a charge neutral compound. This is in good agreement with the determined oxygen contents.…”

“…The partial replacement of In by Cr forming Ba 2 In 2−x Cr x O 5±δ has shown a massive performance improvement during photocatalytic CO 2 conversion and oxygen transport [2,4]. An important factor responsible for the improvement is that the brownmillerite-type structure favours the oxidation of Cr 3+ to Cr 6+ [15] during preparation in air, hence turning the initially anticipated isovalent doping or substitution into heterovalent doping, causing remarkable structural changes at low and intermediate temperatures [3,4]. For example, thermogravimetric analysis (TGA) and chemical analysis show the water content to increase by a factor of five [3,4].…”

Effects of Cr Doping and Water Content on the Crystal Structure Transitions of Ba2In2O5

Novel S, N co-doped Ba2In2-Cr O5+y oxides: Synthesis and optical properties

Synthesis and properties of novel inorganic red chromophore based on Cr4+ in tetrahedral coordination in Bi24Al2-Cr O39