Noble Metal‐Modified Porous Titania Networks and their Application as Photocatalysts

Abstract: In order to enhance the photocatalytic activity of titania materials, which suffer from high percentages of photon‐induced electron and hole pair recombination, noble metal (Pd, Au, Ag, and Pt) modified porous titania materials were prepared. A modified deposition precipitation technique was used to deposit the metal onto a porous TiO2 support preformed using an agarose gel templating technique coupled with sol‐gel chemistry. The final composites were characterized by use of SEM–EDX, TEM, XRD, diffuse reflecta… Show more

“…In this regard, TiO 2 is considered to be the most interesting candidate for commercial scale‐up thanks to its favorable photocatalytic properties, as well as low cost, nontoxicity, and chemical stability . Nevertheless, detrimental issues such as the fast charge carrier recombination in titania and its large band gap ( E G = 3.2 eV), resulting in the sole absorption of UV photons (≈4% of the whole solar spectrum), severely limit TiO 2 applications in sunlight and indoor environment . To extend TiO 2 photoactivity into the visible (vis) region and minimize recombination phenomena, several approaches have been undertaken, including doping with metals/nonmetals and preparation of TiO 2 ‐based composites involving other active materials .…”

Iron–Titanium Oxide Nanocomposites Functionalized with Gold Particles: From Design to Solar Hydrogen Production

“…In this regard, TiO 2 is considered to be the most interesting candidate for commercial scale‐up thanks to its favorable photocatalytic properties, as well as low cost, nontoxicity, and chemical stability . Nevertheless, detrimental issues such as the fast charge carrier recombination in titania and its large band gap ( E G = 3.2 eV), resulting in the sole absorption of UV photons (≈4% of the whole solar spectrum), severely limit TiO 2 applications in sunlight and indoor environment . To extend TiO 2 photoactivity into the visible (vis) region and minimize recombination phenomena, several approaches have been undertaken, including doping with metals/nonmetals and preparation of TiO 2 ‐based composites involving other active materials .…”

Iron–Titanium Oxide Nanocomposites Functionalized with Gold Particles: From Design to Solar Hydrogen Production

“…[30][31][32][33][34] The Ag dopant not only acts as an electron scavenging center for causing electron-hole pair separation, but also activates the TiO 2 to absorb light with longer wavelengths, resulting in a photocatalyst with high efficiency. [35][36][37] Accordingly, fabrication of 1D Ag@TiO 2 mesoporous composites could be a method of obtaining the desired photocatalyst. There has been little research on this so far, although there are abundant reports concerning synthesis of Ag@TiO 2 composites.…”

Mesoporous Ag@TiO₂ nanofibers and their photocatalytic activity for hydrogen evolution

“…. ) arouse a lot of interest for their multiple physical and chemical proprieties; no wonder they are the target of several researches in various fields including therapy [1], biology [2], analytical chemistry [3], photocatalysis [4]. There are several ways to synthesize such nanoparticles but the most common method is still by "wet chemistry".…”

“…Basically, it consists in reducing a soluble metal precursor (Au III , Ag I or Pt IV ) by a soluble reducing agent in presence of a stabilizing species which keeps the formed nanoparticles from aggregation. Turkevich-Frens's method uses AuCl 4 À ions and sodium citrate as both reducer and stabilizing agent and gives $20 nm spherical nanoparticles [5,6]. With others stabilizing agents, the shape can be tuned [7,8].…”

Synthesis and characterization of noble metal nanoparticles-oxidized carbonate green rust nanohybrids