As the largest renewable carbon resource, lignocellulosic biomass has great potential to
replace fossil resources for the production of high-value chemicals, in particular organic …

Background Metal oxide (MO) nanomaterials and related nanocomposites have been
extensively studied for their potential use in water treatment. Because of their controlled …

Localized surface plasmon resonance (LSPR) is a physical phenomenon exhibited by
nanoparticles of metals including coinage metals, alkali metals, aluminum, and some …

Silica-based micro-, meso-, macro-porous materials offer attractive routes for designing
single-site photocatalysts, supporting semiconducting nanoparticles, anchoring light …

A novel Z-scheme MoO 3/Ag/C 3 N 4 composite catalyst is presented that can be
constructed by simple and reliable hydrothermal and borohydride reduction methods. The …

Localized surface plasmon resonance (LSPR) enhanced photocatalysis has fascinated
much interest and considerable efforts have been devoted toward the development of …

Catalysis is an integral part of a majority of chemical operations focused on the generation of
value‐added chemicals or fuels. Similarly, the extensive use of fossil‐derived fuels and …

Plasmonic catalysis has been recognised as a promising alternative to many conventional
thermal catalytic processes in organic synthesis. In addition to their high activity in fine …

Fabrication of the heterojunction composites photocatalyst has attained much attention for
solar energy conversion due to their high optimization of reduction-oxidation potential as a …

This study investigates a comparison between the photocatalytic action of two
nanocomposites (TiO 2 and TiO 2 (Ag) doped) on the degradation of phenol from water. The …