Binderless Electrodeposited NiCo2S4-MWCNT as a Potential Anode Material for Sodium-Ion Batteries

Rupan Das Chakraborty, J. P. Grace, Kiran Kumar Garlapati, S. Martha
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Abstract

Conversion type ternary NiCo2S4, exhibiting high electrical conductivity (~1.25 × 106 S m-1) and high theoretical capacity (703 mAh g-1), has gained interest as an anode material for sodium-ion batteries (SIBs). Despite its potential, NiCo2S4 (NCS) has extensive volume expansion during cycling. This study introduces the NCS-multi-walled carbon nanotube (MWCNT) onto a carbon fiber (CF) electrode (NCS and NCS-MWCNT@CF), developed through electrodeposition, which addresses these limitations. The unique sheet-like morphology of NCS, featuring abundant pores, ensures good access to the electrolyte. Incorporating a three-dimensional conductive CF framework that acts as a free-standing current collector helps prevent the agglomeration of NCS particles and mitigates volume expansion by providing enough buffer space in the layers of the CF matrix. Our findings reveal that NCS on CF electrodes deliver a second cycle capacity of 620 mA g-1 at 30 mA g-1 and retain 72 % capacity after 200 cycles. At 200 mA g-1, the NCS@CF electrodes deliver 378 mAh g-1 in the second cycle with 68% capacity retention in the 200th cycle, whereas NCS-MWCNT@CF delivers 538 mAh g-1 at 200 mA g-1, maintaining 86 % capacity after 100 cycles, making it a potential anode for SIBs.
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作为钠离子电池潜在阳极材料的无粘结剂电沉积镍钴硅烷基碳酸酯-MWCNT
转化型三元镍钴硅(NiCo2S4)具有高导电性(约 1.25 × 106 S m-1)和高理论容量(703 mAh g-1),作为钠离子电池(SIB)的负极材料已引起人们的兴趣。尽管镍钴锰酸锂 (NCS) 潜力巨大,但在循环过程中会产生大量体积膨胀。本研究介绍了通过电沉积在碳纤维(CF)电极(NCS 和 NCS-MWCNT@CF)上开发的 NCS-多壁碳纳米管(MWCNT),从而解决了这些局限性。NCS 独特的片状形态具有丰富的孔隙,可确保电解质的良好进入。三维导电 CF 框架可充当独立的电流收集器,有助于防止 NCS 颗粒聚集,并通过在 CF 基质层中提供足够的缓冲空间来缓解体积膨胀。我们的研究结果表明,CF 电极上的 NCS 在 30 mA g-1 电流条件下可提供 620 mA g-1 的二次循环容量,并在 200 次循环后保持 72% 的容量。在 200 mA g-1 的条件下,NCS@CF 电极在第二个循环中的容量为 378 mAh g-1,在第 200 个循环中的容量保持率为 68%,而 NCS-MWCNT@CF 在 200 mA g-1 的条件下的容量为 538 mAh g-1,在 100 个循环后的容量保持率为 86%,使其成为 SIB 的潜在阳极。
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