Comparative study of nanocrystalline titanium dioxide obtained through sol–gel and sol–gel–hydrothermal synthesis

“…It can be appreciated that, in all cases, a single peak corresponding to Ti‐O‐Ti bonds appears around 690 cm −1 . However, while commercial catalyst and catalysts synthesized from isopropyl alcohol (a and c) do not show other peaks worth mentioning, catalysts obtained from ethanol (b and d) possess a band around 1640 cm −1 that can be linked to chemisorbed water, as well as a wide band between 3690 and 3000 cm −1 related to hydroxyl groups of adsorbed water molecules . The presence of these peaks has also been observed in catalysts synthesized through the traditional hydrothermal method and are usually considered favourable for photocatalytic processes …”

“…36 However, while commercial catalyst and catalysts synthesized from isopropyl alcohol (a and c) do not show other peaks worth mentioning, catalysts obtained from ethanol (b and d) possess a band around 1640 cm −1 that can be linked to chemisorbed water, as well as a wide band between 3690 and 3000 cm −1 related to hydroxyl groups of adsorbed water molecules. 37 The presence of these peaks has also been observed in catalysts synthesized through the traditional hydrothermal method and are usually considered favourable for photocatalytic processes. 38 In this sense, as in the case of the specific surface area, the combinations with ethanol would lead to an appropriate surface composition for the photocatalytic process.…”

Preparation of TiO₂-based catalysts with supercritical fluid technology: characterization and photocatalytic activity in CO₂reduction

“…It can be appreciated that, in all cases, a single peak corresponding to Ti‐O‐Ti bonds appears around 690 cm −1 . However, while commercial catalyst and catalysts synthesized from isopropyl alcohol (a and c) do not show other peaks worth mentioning, catalysts obtained from ethanol (b and d) possess a band around 1640 cm −1 that can be linked to chemisorbed water, as well as a wide band between 3690 and 3000 cm −1 related to hydroxyl groups of adsorbed water molecules . The presence of these peaks has also been observed in catalysts synthesized through the traditional hydrothermal method and are usually considered favourable for photocatalytic processes …”

“…36 However, while commercial catalyst and catalysts synthesized from isopropyl alcohol (a and c) do not show other peaks worth mentioning, catalysts obtained from ethanol (b and d) possess a band around 1640 cm −1 that can be linked to chemisorbed water, as well as a wide band between 3690 and 3000 cm −1 related to hydroxyl groups of adsorbed water molecules. 37 The presence of these peaks has also been observed in catalysts synthesized through the traditional hydrothermal method and are usually considered favourable for photocatalytic processes. 38 In this sense, as in the case of the specific surface area, the combinations with ethanol would lead to an appropriate surface composition for the photocatalytic process.…”

Preparation of TiO₂-based catalysts with supercritical fluid technology: characterization and photocatalytic activity in CO₂reduction

“…In the field of catalysis, numerous works have shown that the synthesis conditions of a catalyst have strong influence on its properties [98][99][100], so the reactivity of synthetic solids could exceed that of commercial catalysts provided that an appropriate synthesis method is employed. A clear example of this is found in wastewater reclamation [101].…”

Greenhouse Effect Mitigation Through Photocatalytic Technology

“…Synthetic powders are products of reaction carried out between precursors of different metals. However, hydrated mixed oxides can be obtained in hydro-or solvothermal conditions [13][14][15].…”

The sol–gel approach as a method of synthesis of xMgO·ySiO2 powder with defined physicochemical properties including crystalline structure