The B3S monolayer as a high-capacity anode material for sodium-ion batteries: First-principles density functional theory approach

Electrode materials with appropriate mechanical, electronic and structural attributes are prerequisites for next generation renewable energy technology. An essential stage in development of batteries to achieve superior performance is selecting an appropriate anode material. In this research, applic...

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Published in	Theoretical chemistry accounts Vol. 142; no. 12
Main Authors	Saadh, Mohamed J., Abbood, Manal A., Lagum, Abdelmajeed Adam, Kumar, Anjan, Hadrawi, Salema K., Shather, A. H., Kadhim, Ali Abdulhasan, Majdi, Ali
Format	Journal Article
Language	English
Published	Berlin/Heidelberg Springer Berlin Heidelberg 01.12.2023 Springer Nature B.V
Subjects	Anodes Atomic/Molecular Structure and Spectra Battery cycles Chemistry Chemistry and Materials Science Density functional theory Diffusion barriers Electrical resistivity Electrode materials Energy technology First principles Inorganic Chemistry Metallicity Monolayers Open circuit voltage Organic Chemistry Physical Chemistry Sodium Sodium diffusion Sodium-ion batteries Storage capacity Theoretical and Computational Chemistry S monolayer Diffusion barrier B Open-circuit voltage Anode Sodium-ion batteries
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Abstract	Electrode materials with appropriate mechanical, electronic and structural attributes are prerequisites for next generation renewable energy technology. An essential stage in development of batteries to achieve superior performance is selecting an appropriate anode material. In this research, application of B 3 S monolayer for anode materials has been investigated employing first-principles-based DFT. For B 3 S monolayer, as an anode material, it is anticipated to have high performance with a low sodium diffusion barrier (E a < 0.45 eV), low open-circuit voltage (OCV∼0.12 V), and high storage capacity (1855 mA h g −1 ). In addition, metallicity of B 3 S monolayer has been maintained at the end of Na adsorption, which reveals a favorable battery operating cycle and electrical conductivity. Our findings elucidate that these outstanding attributes cause B 3 S monolayer to be an attractive option for anode materials in sodium-ion batteries (NIBs).
AbstractList	Electrode materials with appropriate mechanical, electronic and structural attributes are prerequisites for next generation renewable energy technology. An essential stage in development of batteries to achieve superior performance is selecting an appropriate anode material. In this research, application of B3S monolayer for anode materials has been investigated employing first-principles-based DFT. For B3S monolayer, as an anode material, it is anticipated to have high performance with a low sodium diffusion barrier (Ea < 0.45 eV), low open-circuit voltage (OCV∼0.12 V), and high storage capacity (1855 mA h g−1). In addition, metallicity of B3S monolayer has been maintained at the end of Na adsorption, which reveals a favorable battery operating cycle and electrical conductivity. Our findings elucidate that these outstanding attributes cause B3S monolayer to be an attractive option for anode materials in sodium-ion batteries (NIBs). Electrode materials with appropriate mechanical, electronic and structural attributes are prerequisites for next generation renewable energy technology. An essential stage in development of batteries to achieve superior performance is selecting an appropriate anode material. In this research, application of B 3 S monolayer for anode materials has been investigated employing first-principles-based DFT. For B 3 S monolayer, as an anode material, it is anticipated to have high performance with a low sodium diffusion barrier (E a < 0.45 eV), low open-circuit voltage (OCV∼0.12 V), and high storage capacity (1855 mA h g −1 ). In addition, metallicity of B 3 S monolayer has been maintained at the end of Na adsorption, which reveals a favorable battery operating cycle and electrical conductivity. Our findings elucidate that these outstanding attributes cause B 3 S monolayer to be an attractive option for anode materials in sodium-ion batteries (NIBs).
ArticleNumber	128
Author	Saadh, Mohamed J. Hadrawi, Salema K. Abbood, Manal A. Majdi, Ali Kumar, Anjan Lagum, Abdelmajeed Adam Shather, A. H. Kadhim, Ali Abdulhasan
Author_xml	– sequence: 1 givenname: Mohamed J. surname: Saadh fullname: Saadh, Mohamed J. organization: Faculty of Pharmacy, Middle East University, Applied Science Research Center, Applied Science Private University – sequence: 2 givenname: Manal A. surname: Abbood fullname: Abbood, Manal A. organization: Division of Medical and Industrial Materials Science, Department of Applied Sciences, University of Technology – sequence: 3 givenname: Abdelmajeed Adam surname: Lagum fullname: Lagum, Abdelmajeed Adam organization: Department of Civil Engineering, Faculty of Engineering, Isra University – sequence: 4 givenname: Anjan surname: Kumar fullname: Kumar, Anjan organization: Department of Electronics and Communication Engineering, GLA University – sequence: 5 givenname: Salema K. surname: Hadrawi fullname: Hadrawi, Salema K. organization: Refrigeration and Air-Conditioning Technical Engineering Department, College of Technical Engineering, The Islamic University – sequence: 6 givenname: A. H. surname: Shather fullname: Shather, A. H. organization: Department of Computer Engineering Technology, Al Kitab University – sequence: 7 givenname: Ali Abdulhasan surname: Kadhim fullname: Kadhim, Ali Abdulhasan organization: Collage of Dentistry, National University of Science and Technology – sequence: 8 givenname: Ali surname: Majdi fullname: Majdi, Ali email: alimajidichem@gmail.com organization: Department of Building and Construction Techniques Engineering, Al-Mustaqbal University, College
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Keywords	S monolayer Diffusion barrier B Open-circuit voltage Anode Sodium-ion batteries
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Snippet	Electrode materials with appropriate mechanical, electronic and structural attributes are prerequisites for next generation renewable energy technology. An...
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SubjectTerms	Anodes Atomic/Molecular Structure and Spectra Battery cycles Chemistry Chemistry and Materials Science Density functional theory Diffusion barriers Electrical resistivity Electrode materials Energy technology First principles Inorganic Chemistry Metallicity Monolayers Open circuit voltage Organic Chemistry Physical Chemistry Sodium Sodium diffusion Sodium-ion batteries Storage capacity Theoretical and Computational Chemistry
Title	The B3S monolayer as a high-capacity anode material for sodium-ion batteries: First-principles density functional theory approach
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