Spinel ferrites demonstrate extensive applications in different areas, like electrodes for
electrochemical devices, gas sensors, catalysts, and magnetic adsorbents for …

This work reports on the effect of substituting a low-anisotropic and low-magnetic cation
(Ni2+, 2μB) by a high-anisotropic and high-magnetic cation (Co2+, 3μB) on the crystal …

The green energy produced by the material device Hydroelectric Cell possesses a huge
potential to transform the energy generation by water splitting. It is an efficient, clean and …

Halide perovskites are increasingly explored for CO2 photoreduction to carbonaceous
products and fuels. However, multistep solution-based perovskite synthesis not only poses …

Novel hydroelectric cells exploit porosity and structural defects to dissociate deionized water
for hydroelectricity generation. In the present study, these essential attributes have been …

This study presents compelling empirical evidence that highlights the notable effect of
increased defect concentration on the splitting of water molecules in MgGd x Fe 2-x O 4 …

Microwave absorption is a crucial aspect of modern technology, with applications ranging
from communication systems to stealth technology. Throughout the years, researchers have …

In addressing the energy crisis, a strategic emphasis on green energy generation is
essential, with water dissociation-based cells named hydroelectric cells (HECs) playing a …

Room temperature water splitting due to reactive surface charges created by defects and
porosity in metal oxides fabricated as Hydroelectric Cell (HEC) has translated it into electric …

Hydroelectric cells demonstrate their capacity to produce energy via the dissociation of
water molecules, eliminating the requirement for electrolytes. The objective of this research …