Greensusmater
Vol. 1 No. 2 (2024)

Adsorption and Diffusion Energies Calculation of Sodium Ion Battery using GeTe Anode : A Density Functional Theory Study

Putra, Septia Eka Marsha (Unknown)
Habibi, Fathan Akbar Nur (Unknown)
Simatupang, Daniel Hasiholan (Unknown)
Mustaqim, Amrina (Unknown)

Article Info

Publish Date
28 Dec 2024

Abstract

Sodium batteries are the most potential candidates for future and green energies storage systems. However, there are problems with structural instability in the electrodes, which affect battery performance. Therefore, this study investigated the adsorption and diffusion mechanisms at the anode using a phase puckered Germanium Telluride (GeTe) monolayer structure. Density functional theory (DFT) calculations show that the Na-adsorbed hollow Te-Te structure is the most stable adsorption configuration (-1.25 eV). In the diffusion scheme, Na atoms move through the hollow Te-Te (initial state) followed by the hollow Ge-Ge (transition state), then to the hollow Te-Te (final state). The diffusion mechanism that occurs has lowest energy of 0.09 × 10-4 eV. These results suggest that the phase puckered GeTe monolayer has the potential as a high-performance sodium battery anode.

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Journal Info
Greensusmater
Website

Abbrev

gsm

Publisher

Green and Sustainable Materials Society

Subject

Chemical Engineering, Chemistry & Bioengineering Chemistry Environmental Science Materials Science & Nanotechnology

Description

Greensusmater is a premier, gold open access peer-reviewed academic journal dedicated to advancing knowledge and understanding of green and sustainable materials science and technology. Our aim is to serve as a global platform for researchers, industry professionals, policymakers, and anyone ...