The continuous increase of the world's population, together with the substantial
development of industry has brought about imperious demand for larger energy …

Inspired by the orderly stacked nanostructure and highly integrated function of thylakoids in
a natural photosynthesis system, multishell g-C3N4 (MSCN) nanocapsule photocatalysts …

Light scattering is a method that has been employed in dye-sensitized solar cells for optical
absorption enhancement. In conventional dye-sensitized solar cells, large TiO2 particles …

Herein, the doping effect of Mo and S on photocatalytic H 2 generation activity of gC 3 N 4
under visible light irradiation is investigated. By using a simple one-step heating technology …

Designing efficient photocatalysts for water splitting hydrogen evolution with low cost is a hot
topic. In the present work, a α-Fe 2 O 3/gC 3 N 4 photocatalyst with core-shell structure is …

Hollow nanostructures are of great scientific and technological importance for extensive
applications in photocatalysis, drug delivery, wastewater treatment, etc. In this study, we …

Size-tunable mesoporous spherical TiO2 (MS TiO2) with a surface area of∼ 110 m2 g− 1
have been prepared through combination of “dilute mixing”-driven hydrolysis of titanium (iv) …

Graphitic carbon nitride (gC 3 N 4), as the one of the most promising photocatalysts, usually
relies on noble metal co-catalysts in the photocatalytic water splitting H 2 evolution process …

In the past few decades, some novel low‐cost nanostructured devices have been explored
for converting solar energy into electrical or chemical energy, such as organic photovoltaic …

Zn-doped TiO 2 microspheres have been synthesized by introducing a trace amount of zinc
nitrate hexahydrate to the reaction system. Scanning electron microscope (SEM), field …