Ultrafast diffusive cross-sheet motion of lithium through antimonene with a 2+1 dimensional kinetics
Layered two-dimensional (2D) materials like graphene are highly appealing for lithium battery applications owing to their high surface–volume ratios. However, a critical issue that limits their practical applications is the confined motion of lithium atoms within their van der Waals gaps, which is t...
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sg-ntu-dr.10356-1516172021-07-22T12:08:57Z Ultrafast diffusive cross-sheet motion of lithium through antimonene with a 2+1 dimensional kinetics Kistanov, Andrey A. Kripalani, Devesh Raju Cai, Yongqing Dmitriev, Sergey V. Zhou, Kun Zhang, Yong-Wei School of Mechanical and Aerospace Engineering Institute of High Performance Computing, A*STAR Engineering::Mechanical engineering Graphene Nanosheets Ion Layered two-dimensional (2D) materials like graphene are highly appealing for lithium battery applications owing to their high surface–volume ratios. However, a critical issue that limits their practical applications is the confined motion of lithium atoms within their van der Waals gaps, which is the leading cause for battery failure due to severe clustering and phase separation. Here we demonstrate that antimonene, an exfoliatable 2D material with high structural stability, exhibits a highly mobile cross-sheet motion owing to its unique structural features. The advent of the vertically permeable channels opens a new pathway for lithium besides the normal motion along the basal plane, giving 2 + 1 dimensional kinetics. Specifically, our first-principles calculations combined with discrete geometry analysis revealed that the energy barrier for a lithium atom to diffuse across the antimonene sheet is as low as 0.36 eV, which can be further reduced to 0.18 eV under a tensile strain of 4%. These ultralow diffusion barriers across the sheet can open a new dimension for controlling the motion of lithium atoms, leading to a new paradigm for high-performance lithium batteries or inorganic solid-state lithium-ion conductors. Agency for Science, Technology and Research (A*STAR) Economic Development Board (EDB) Nanyang Technological University National Supercomputing Centre (NSCC) Singapore The authors acknowledge the financial support from the Agency for Science, Technology and Research (A*STAR), Singapore, and the use of computing resources at the National Supercomputing Centre, Singapore. This work was supported in part by a grant from the Science and Engineering Research Council (152-70-00017) and the state assignment of IMSP. A. A. Kistanov thanks the Russian Foundation for Basic Research, grant no. 18-32-20158 mol_a_ved. D. R. Kripalani acknowledges the support of the Economic Development Board, Singapore, and Infineon Technologies Asia Pacific Pte Ltd through the Industrial Post-graduate Programme with Nanyang Technological University, Singapore. 2021-07-22T12:08:57Z 2021-07-22T12:08:57Z 2019 Journal Article Kistanov, A. A., Kripalani, D. R., Cai, Y., Dmitriev, S. V., Zhou, K. & Zhang, Y. (2019). Ultrafast diffusive cross-sheet motion of lithium through antimonene with a 2+1 dimensional kinetics. Journal of Materials Chemistry A, 7(6), 2901-2907. https://dx.doi.org/10.1039/C8TA11503F 2050-7488 https://hdl.handle.net/10356/151617 10.1039/C8TA11503F 6 7 2901 2907 en 152-70-00017 Journal of Materials Chemistry A © 2019 The Royal Society of Chemistry. All rights reserved. |
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Engineering::Mechanical engineering Graphene Nanosheets Ion Kistanov, Andrey A. Kripalani, Devesh Raju Cai, Yongqing Dmitriev, Sergey V. Zhou, Kun Zhang, Yong-Wei Ultrafast diffusive cross-sheet motion of lithium through antimonene with a 2+1 dimensional kinetics |
| description |
Layered two-dimensional (2D) materials like graphene are highly appealing for lithium battery applications owing to their high surface–volume ratios. However, a critical issue that limits their practical applications is the confined motion of lithium atoms within their van der Waals gaps, which is the leading cause for battery failure due to severe clustering and phase separation. Here we demonstrate that antimonene, an exfoliatable 2D material with high structural stability, exhibits a highly mobile cross-sheet motion owing to its unique structural features. The advent of the vertically permeable channels opens a new pathway for lithium besides the normal motion along the basal plane, giving 2 + 1 dimensional kinetics. Specifically, our first-principles calculations combined with discrete geometry analysis revealed that the energy barrier for a lithium atom to diffuse across the antimonene sheet is as low as 0.36 eV, which can be further reduced to 0.18 eV under a tensile strain of 4%. These ultralow diffusion barriers across the sheet can open a new dimension for controlling the motion of lithium atoms, leading to a new paradigm for high-performance lithium batteries or inorganic solid-state lithium-ion conductors. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Kistanov, Andrey A. Kripalani, Devesh Raju Cai, Yongqing Dmitriev, Sergey V. Zhou, Kun Zhang, Yong-Wei |
| format |
Article |
| author |
Kistanov, Andrey A. Kripalani, Devesh Raju Cai, Yongqing Dmitriev, Sergey V. Zhou, Kun Zhang, Yong-Wei |
| author_sort |
Kistanov, Andrey A. |
| title |
Ultrafast diffusive cross-sheet motion of lithium through antimonene with a 2+1 dimensional kinetics |
| title_short |
Ultrafast diffusive cross-sheet motion of lithium through antimonene with a 2+1 dimensional kinetics |
| title_full |
Ultrafast diffusive cross-sheet motion of lithium through antimonene with a 2+1 dimensional kinetics |
| title_fullStr |
Ultrafast diffusive cross-sheet motion of lithium through antimonene with a 2+1 dimensional kinetics |
| title_full_unstemmed |
Ultrafast diffusive cross-sheet motion of lithium through antimonene with a 2+1 dimensional kinetics |
| title_sort |
ultrafast diffusive cross-sheet motion of lithium through antimonene with a 2+1 dimensional kinetics |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/151617 |
| _version_ |
1707050427679244288 |