Photocatalysis (PC) technology has received global attention due to its high potential of
addressing both environmental and energy issues using only solar light as energy input …

Metal oxides are the key ingredients for the development of many advanced functional
materials and smart devices. Nanostructuring has emerged as one of the best tools to unlock …

Lattice defects of semiconductors have a tremendous influence on the photo-absorption and
separation of photogenerated electron–hole pairs; thus the photocatalytic performance of a …

Single crystalline orthorhombic phase tungsten trioxide monohydrate (O-WO3· H2O, space
group: Pmnb) nanoplates with a clear morphology and uniform size distribution have been …

The morphology and crystal structure of electrode materials have an enormous impact on
their electrochemical properties for employment in supercapacitors for various applications …

Tungsten trioxide (WO3) is one of the important multifunctional materials used for
photocatalytic, photoelectrochemical, battery, and gas sensor applications. Nanostructured …

The photocatalysis, chromism, and sensing capabilities of nanostructured tungsten oxides,
such as tungsten trioxide (WO3), its suboxides (WOx, 0< x< 3) and hydrates (WO3· nH2O, n …

The photocatalytic conversion of CO2 into solar fuels or chemicals is a sustainable approach
to relieve the immediate problems related to global warming and the energy crisis. This …

Currently, the electrochromic technology is still facing problems of high-cost and inadequate
electrochromic performance. The WO3 film prepared by the conventional hydrothermal …

Direct electron transfer with redox proteins, in third generation biosensors, is already proved
to be favored on electrodes modified with nanoparticles. In this work, different …