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Inquisitive Geometric Sites in h-BN Monolayer for Alkali Earth Metal Ion Batteries

Shivam KansaraAdvanced Materials Lab, Department of Applied Physics, S.V. National Institute of Technology, Surat 395007, IndiaSanjeev K. GuptaComputational Materials and Nanoscience Group, Department of Physics, St. Xavier’s College, Ahmedabad 380009, IndiaYogesh SonvaneAdvanced Materials Lab, Department of Applied Physics, S.V. National Institute of Technology, Surat 395007, IndiaMaja Varga PajtlerDepartment of Physics, University of Osijek, Osijek 31000, CroatiaRajeev AhujaDepartment of Physics and Astronomy, Uppsala University, Uppsala 751 20, Sweden
2019en
ABI

Аннотация

Electrochemical energy storage has been at the center of interest over the past years due to the ever-faster technological development and the need for high-capacity batteries with high voltages and energy densities. Alkali batteries show the greatest potential for improving current characteristics, and this work examines several hexagonal boron nitride configurations as electrodes for ion batteries. First-principles calculations based on density functional theory have been used to study structural, electronic, and electrochemical properties of a graphenelike hexagonal boron nitride (h-BN) monolayer for various point defects. The maximum theoretical capacities for alkali earth metal ions adsorbed on the h-B9N8 monolayer are 762.264, 571.698, and 127.044 mAh/g, and average electrode potentials are 0.188, 0.009, and 5.735 V for the adsorption of Li+, Na+, and K+, respectively. Studied structures have been explored for the use as anode materials to hold alkali metal ions, namely, Li+, K+, and Na+, and we have found that for some cases, the alkali metal–h-BN structure shows metallic character, which leads to good electrical conductivity, without the change of structural geometry. Our results show that studied materials have characteristics suitable for the electrode-based ion batteries.

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