Thermodynamic improvement of lithium hydrides for hydrogen absorption and desorption by incorporation of porous silicon
Lithium is a popular lightweight material in the field of energy storage because of its
hydrogen-binding properties and electrochemical advantages. The high hydrogen uptake …
hydrogen-binding properties and electrochemical advantages. The high hydrogen uptake …
Investigating reversible hydrogen storage and performance of porous Si by kinetic study and pressure composition isotherms at up to 20 bar
Solid-state hydrogen storage provides high volumetric energy density and has the potential
to replace commercial storage techniques. Low gravimetric storage and elevated desorption …
to replace commercial storage techniques. Low gravimetric storage and elevated desorption …
Interdependence of morphological attributes and optoelectronic properties of porous silicon-nanowires
Si nanowires (SiNWs) are receiving tremendous attention due to their significant optical and
electrical properties; however, porosity on the nanowires opens an opportunity for further …
electrical properties; however, porosity on the nanowires opens an opportunity for further …
Sorption properties of nanostructured ball-milled porous silicon for solid-state hydrogen storage up to 80 bar
Solid-state storage is a feasible solution to store hydrogen compared to commercially
available techniques. The disadvantage of using metal and complex hydrides for storage is …
available techniques. The disadvantage of using metal and complex hydrides for storage is …
Synergistic integration of nickel, porous silicon, and thermally reduced graphene oxide for solid‐state hydrogen energy storage
RC Muduli, NK Nishad, D Dashbabu… - Energy …, 2024 - Wiley Online Library
Solid‐state hydrogen storage using metal hydrides offers the potential for high energy
storage capacities. However, the requirement for high‐temperature operations (above 400° …
storage capacities. However, the requirement for high‐temperature operations (above 400° …
The effect of porous silicon thickness and pore size on the electrical properties of TiO2/PS heterojunctions
DR Huanca, LC Leite - Materials Chemistry and Physics, 2024 - Elsevier
Heterojunctions made by depositing Titanium dioxide (TiO 2) on porous silicon using the sol-
gel method were electrically characterized. It was found that charge transfer mechanisms …
gel method were electrically characterized. It was found that charge transfer mechanisms …