Optimized Structural Dimensionality of CuSbS2 as an Anode Material in Sodium-Ion Batteries
Rapidly escalating interest toward sodium-ion batteries (SIBs) for extensive energy-storage applications has been witnessed in the past decade owing to the abundance of sodium. Anode materials possessing combined characteristics of conversion and alloying mechanisms have high prospects for SIBs owin...
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Published in | ACS applied energy materials Vol. 6; no. 2; pp. 920 - 929 |
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Main Authors | , , , |
Format | Journal Article |
Language | English |
Published |
American Chemical Society
23.01.2023
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Subjects | |
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Abstract | Rapidly escalating interest toward sodium-ion batteries (SIBs) for extensive energy-storage applications has been witnessed in the past decade owing to the abundance of sodium. Anode materials possessing combined characteristics of conversion and alloying mechanisms have high prospects for SIBs owing to their high theoretical capacities and relatively low working voltages. Herein, we report the anodic performance of CuSbS2 for SIBs possessing conversion and alloying mechanism with fine-tuning of dimensionality by varying the molar quantity of sulfur. The CuSbS2 anode demonstrated one of the highest reported charge capacities of 650 mAhg–1. An increase in sulfur content facilitated 60% capacity retention even at high currents of 200 mAg–1 stabilization of the Na2S matrix, which aids in accommodating the volume changes during the cycling process, thereby enhancing the cycling life. |
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AbstractList | Rapidly escalating interest toward sodium-ion batteries (SIBs) for extensive energy-storage applications has been witnessed in the past decade owing to the abundance of sodium. Anode materials possessing combined characteristics of conversion and alloying mechanisms have high prospects for SIBs owing to their high theoretical capacities and relatively low working voltages. Herein, we report the anodic performance of CuSbS2 for SIBs possessing conversion and alloying mechanism with fine-tuning of dimensionality by varying the molar quantity of sulfur. The CuSbS2 anode demonstrated one of the highest reported charge capacities of 650 mAhg–1. An increase in sulfur content facilitated 60% capacity retention even at high currents of 200 mAg–1 stabilization of the Na2S matrix, which aids in accommodating the volume changes during the cycling process, thereby enhancing the cycling life. |
Author | Senguttuvan, Premkumar Peter, Sebastian C. Sarkar, Shreya Ahuja, Vinita |
AuthorAffiliation | School of Advanced Materials New Chemistry Unit |
AuthorAffiliation_xml | – name: New Chemistry Unit – name: School of Advanced Materials |
Author_xml | – sequence: 1 givenname: Shreya orcidid: 0000-0002-6592-4410 surname: Sarkar fullname: Sarkar, Shreya organization: School of Advanced Materials – sequence: 2 givenname: Vinita surname: Ahuja fullname: Ahuja, Vinita organization: School of Advanced Materials – sequence: 3 givenname: Premkumar orcidid: 0000-0001-8465-5896 surname: Senguttuvan fullname: Senguttuvan, Premkumar organization: School of Advanced Materials – sequence: 4 givenname: Sebastian C. orcidid: 0000-0002-5211-446X surname: Peter fullname: Peter, Sebastian C. email: sebastiancp@jncasr.ac.in organization: School of Advanced Materials |
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Copyright | 2023 American Chemical Society |
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DOI | 10.1021/acsaem.2c03317 |
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Keywords | anodes structural dimensionality chalcogenides antimonides sodium-ion battery |
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Title | Optimized Structural Dimensionality of CuSbS2 as an Anode Material in Sodium-Ion Batteries |
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