Microwave-hydrothermal process for the synthesis of rutile

“…[120] Nevertheless, a comparison of various microwave-mediated routes to TiO 2 nanoparticles, [113,121] clearly demonstrates the strong dependence of the resulting polymorph and its morphology on slight variations of the solvent mixture. As there is no general MW- The specific surface area of a given TiO 2 material is another crucial parameter that needs to be optimized in solvothermal methods, and the complex interplay between the various synthetic options in MW-ST and the resulting materials parameters is illustrated in a study on the formation of Ti-based nanotubes and nanoribbons: [116] conventional hydrothermal routes afford nanotubular trititanate with an MW synthesis using ultrapure graphitic carbon detailed structural investigations for solid state, MW synthesis explorations [136] Mo-V-Te-Nb-O system MW-HT small cylinder-shaped crystallites, catalytic investigations [144] TiO 2 -SiO 2 microwave-induced combustion process nanoparticles 10-20 nm in size, anatase phase [134] Oxide Nanomaterials impressive surface area of 360 m 2 g À1 and inner pore size diameters around 4 nm.…”

Oxide Nanomaterials: Synthetic Developments, Mechanistic Studies, and Technological Innovations

“…[120] Nevertheless, a comparison of various microwave-mediated routes to TiO 2 nanoparticles, [113,121] clearly demonstrates the strong dependence of the resulting polymorph and its morphology on slight variations of the solvent mixture. As there is no general MW- The specific surface area of a given TiO 2 material is another crucial parameter that needs to be optimized in solvothermal methods, and the complex interplay between the various synthetic options in MW-ST and the resulting materials parameters is illustrated in a study on the formation of Ti-based nanotubes and nanoribbons: [116] conventional hydrothermal routes afford nanotubular trititanate with an MW synthesis using ultrapure graphitic carbon detailed structural investigations for solid state, MW synthesis explorations [136] Mo-V-Te-Nb-O system MW-HT small cylinder-shaped crystallites, catalytic investigations [144] TiO 2 -SiO 2 microwave-induced combustion process nanoparticles 10-20 nm in size, anatase phase [134] Oxide Nanomaterials impressive surface area of 360 m 2 g À1 and inner pore size diameters around 4 nm.…”

Oxide Nanomaterials: Synthetic Developments, Mechanistic Studies, and Technological Innovations

“…Using a similar microwave-hydrothermal process, Baldassari et al produced pure rutile, pure anatase, or a mixture, depending on reaction temperature and time, demonstrating specific impacts on crystal formation. 189 …”

Toward Greener Nanosynthesis

“…[103] Die direkte Korrelation der Kinetik der organischen Nebenreaktionen mit der Wachstumsgeschwindig- [113] ist die Reaktionsführung in wäss-rigen Medien vom ökologischen wie ökonomischen Standpunkt deutlich vorzuziehen. [120] Dennoch zeigt ein Vergleich verschiedener mikrowellenunterstützter Routen zu nanoskaligem TiO 2 , [113,121] [124] Auch kann eine Vorbehandlung des Edukts die Effizienz einer MW-ST-Synthese deutlich steigern, wie ein kombiniertes Sol-Gel/MW-ST-Verfahren zur Herstellung von SnO 2 -Nanopartikeln zeigt. [128] Die Zersetzung eines SnCl 2 ·H 2 O/Zitronensäure-Komplexes in kohlenstoffhaltige Spezies ist an der Verkürzung der Reaktionsdauer beteiligt und verhindert die Agglomeration der entstehenden Partikel (Abbildung 6).…”

Oxidische Nanomaterialien: Von der Synthese über den Mechanismus zur technologischen Innovation