Hydrogen holds promise for slashing emissions in energy and transportation due to its high
energy density and clean combustion. The transition to hydrogen fuel encompasses various …

Hydrogen is a prospective energy carrier because there are practically no gaseous
emissions of greenhouse gases in the atmosphere during its use as a fuel. The great benefit …

The hydrogen storage performance of Li decorated BN monolayer (simply T-BN) composed
of repeating octagons and tetragons (only including one element) were explored by using …

The main objective of many researches is to find an excellent reversible material for
hydrogen storage applications under ambient conditions. The hydrogen adsorption on pure …

The research was conducted to discover a material that can efficiently and effectively store
hydrogen at appropriate conditions. Specifically, its focus was on examining the hydrogen …

It was found the physical adsorption could be an efficient strategy for high capacity, high
efficiency and high safety in hydrogen storage. In this research, a systematic investigation …

The stabilities, electronic properties, and reactivities of hydrogen interactions with Cu-, Ag-,
and Au-decorated aluminum nanotubes (AlNNT), H2-AlNNT, H2-Ag@ AlNNT, H2-Au …

Using density functional theory (DFT) and ab-initio molecular dynamics (AIMD) simulations,
this paper thoroughly studied H 2 storage properties on Ca-decorated two dimensional (2D) …

The promise of using 2D materials for hydrogen storage has broad prospects, ascribe to
their significant specific surface area and lightweight properties. In this work, the hydrogen …

Binding of group 8B transition metals (TMs) on Si 2 BN nanotubes and the adsorption of H 2
molecules on TM-decorated Si 2 BN nanotubes are investigated in the framework of first …