Secondary Li-ion batteries have enabled a world of portable electronics and electrification of
personal and commercial transportation. However, the charge storage capacity of …

The reactivity of sulfidized nanoscale zerovalent iron (SNZVI) is affected by the amount and
species of sulfur in the materials. Here, we assess the impact of the Fe (Fe2+ and Fe3+) and …

Solar energy is the extreme realistic solution to regularly growing energy crisis. Several
solar energy conversion systems have been in harnessing into useful form of energy. The …

High-performance functional materials are the cornerstones of the continuous advance of
modern science and technology, but the development of new materials is still challenging …

In this study, the role of iron sulfide (FeS) content on the structural and optical properties of
graphene/polyvinyl alcohol (Gr/PVA) blend has been examined for environmental-friendly …

Iron pyrite (cubic FeS2) is a promising candidate absorber material for earth-abundant thin-
film solar cells. Here, we report on phase-pure, large-grain, and uniform polycrystalline …

Based on the density functional theory, the band structure and optical absorption of the
isovalent sulfur-doped hematite α-Fe2O3 are studied systematically. The results show that …

High-refractive-index antennas with characteristic dimensions comparable to wavelength
have a remarkable ability to support pronounces electric and magnetic dipole resonances …

Iron pyrite (FeS2) is considered a promising earth-abundant semiconductor for solar energy
conversion with the potential to achieve terawatt-scale deployment. However, despite …

Pyrite (FeS2) thin films were synthesized using a H2S plasma to sulfurize hematite (Fe2O3)
nanorods deposited by chemical bath deposition. The high S activity within the plasma …