Abstract
The dual osmium/boron doped/co-doped armchair single walled carbon nanotubes (SWCNTs) have been explored for hydrogen storage applications via ab-initio method. We thoroughly screen dual osmium/boron doping at two different opposite positions in SWCNTs and analyze bond distances, binding energy, band gaps, electrophilicity, density of states, adsorption energies, adsorption enthalpy, Gibbs free energy and storage capacity. The results summit Osmium doped CNTs as hopeful nominees for hydrogen storage applications. The findings indicates that Osmium atoms doping in opposite sides of CNT along with boron atoms at ortho position (2Os-2BCNT) show 1.95 wt% gravimetric hydrogen storage capacity at 298.15 Kelvin temperature and 1 atm pressure. Furthermore, the feasibility of doped SWCNTs have been explored for storage applications by performing average Van't Hoff desorption temperature calculations and molecular dynamics simulations for 2Os-2BCNT at maximum desorption temperature and 1 atm pressure.
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