Hardev S. Saini scite author profile

First-principles calculations have been performed to calculate the electrochemical properties of the S-functionalized Mo2C (Mo2CS2) monolayer using the projected-augmented wave (PAW) method based on density functional theory (DFT). The geometrical optimization reveals that the Li gets favorably adsorbed on the top of the Mo layer. The metallic nature of S-functionalized Mo2C maintains its electronic conduction with and without Li adsorption, which reflects its special role in Li-ion battery technologies. Functionalization of S-atoms significantly increases the Li-adsorption energy in the resultant monolayer which consequently alters the charge storage capacity of Li-ion batteries (LIBs). The calculated low diffusion barrier (∼0.22 eV) of adsorbed Li ion implies the high mobility and cyclic ability of Mo2CS2 monolayer. Moreover, the calculated theoretical specific capacity, 410 mA h g–1, and average voltage, 0.3 V, suggest its application as a proficient anode material in LIBs.

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Accounting oxygen vacancy for half-metallicity and magnetism in Fe-doped CeO2 dilute magnetic oxide

Saini

Singh

Reshak

et al. 2013

Computational Materials Science

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Emergence of half metallicity in Cr-doped GaP dilute magnetic semiconductor compound within solubility limit

Saini

Singh

Reshak

et al. 2012

Journal of Alloys and Compounds

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Quest for magnetism in graphene via Cr- and Mo-doping: A DFT approach

Thakur

Saini

Singh

et al. 2016

Physica E: Low-dimensional Systems and Nanostructures

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Hardev S. Saini

Electronic structure, magnetism and robust half-metallicity of new quaternary Heusler alloy FeCrMnSb

S-Functionalized Mo₂C Monolayer as a Novel Electrode Material in Li-Ion Batteries

Accounting oxygen vacancy for half-metallicity and magnetism in Fe-doped CeO2 dilute magnetic oxide

Emergence of half metallicity in Cr-doped GaP dilute magnetic semiconductor compound within solubility limit

Quest for magnetism in graphene via Cr- and Mo-doping: A DFT approach

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Hardev S. Saini

Electronic structure, magnetism and robust half-metallicity of new quaternary Heusler alloy FeCrMnSb

S-Functionalized Mo2C Monolayer as a Novel Electrode Material in Li-Ion Batteries

Accounting oxygen vacancy for half-metallicity and magnetism in Fe-doped CeO2 dilute magnetic oxide

Emergence of half metallicity in Cr-doped GaP dilute magnetic semiconductor compound within solubility limit

Quest for magnetism in graphene via Cr- and Mo-doping: A DFT approach

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S-Functionalized Mo₂C Monolayer as a Novel Electrode Material in Li-Ion Batteries