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Enhanced hydrogen storage by using lithium decoration on phosphorene
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The hydrogen storage characteristics of Li decorated phosphorene were systematically investigated based on first-principle density functional theory. It is revealed that the adsorption of H2 on pristine phosphorene is relatively weak with an adsorption energy of 0.06 eV. While this value can be dramatically enhanced to ∼0.2 eV after the phosphorene was decorated by Li, and each Li atom can adsorb up to three H2 molecules. The detailed mechanism of the enhanced hydrogen storage was discussed based on our density functional theory calculations. Our studies give a conservative prediction of hydrogen storage capacity to be 4.4 wt. % through Li decoration on pristine phosphorene. By comparing our calculations to the present molecular dynamic simulation results, we expect our adsorption system is stable under room temperature and hydrogen can be released after moderate heating.
Title: Enhanced hydrogen storage by using lithium decoration on phosphorene
Description:
The hydrogen storage characteristics of Li decorated phosphorene were systematically investigated based on first-principle density functional theory.
It is revealed that the adsorption of H2 on pristine phosphorene is relatively weak with an adsorption energy of 0.
06 eV.
While this value can be dramatically enhanced to ∼0.
2 eV after the phosphorene was decorated by Li, and each Li atom can adsorb up to three H2 molecules.
The detailed mechanism of the enhanced hydrogen storage was discussed based on our density functional theory calculations.
Our studies give a conservative prediction of hydrogen storage capacity to be 4.
4 wt.
% through Li decoration on pristine phosphorene.
By comparing our calculations to the present molecular dynamic simulation results, we expect our adsorption system is stable under room temperature and hydrogen can be released after moderate heating.
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