Among the several approaches for harnessing solar energy and converting it into electricity,
dye-sensitized solar cells (DSSCs) represent one of the most promising methods for future …

Solar cells are furthermost eminent alternative solar energy conversion devices and have
great potential to conquer the energy needs of the society. In recent past, Dye sensitized …

Metal oxides have been of great importance to the development of energy conversion and
storage technologies including heterojunction solar cells, Li-ion batteries, and …

Semi‐transparent solar cells are emerging as promising devices for building integrated
photovoltaics. However, regardless of the technology considered, the optical transmission of …

Superfast (≤ 10 min) room-temperature (300 K) chemical synthesis of three-dimensional (3-
D) polycrystalline and mesoporous bismuth (III) oxide (Bi2O3) nanostructured negatrode (as …

Photocatalytic pathways could prove crucial to the sustainable production of fuels and
chemicals required for a carbon-neutral society. Electron− hole recombination is a critical …

Visible light-driven production of fuels and value-added chemicals is currently one of the
most intensely investigated research topics across various scientific disciplines, due to its …

The formation of H2O2 through the two-electron photocatalytic water oxidation reaction
(WOR) is significant but encounters the competition with the four-electron O2 evolution …

The implementation of efficient hole blocking layers (BLs) is of vital importance to achieve
high efficiency in solar cells using organolead trihalide materials as the solar light absorber …

Conversion of sunlight into chemical energy has been the subject of intense research efforts
in recent years, due to the possibility to store the enormous amount of energy continuously …