Enhanced Cycle Stability of Low‐Cost Na‐Rich Metallic NaCl Electrode for Advanced Na‐Ion Batteries

Moeez, Iqra; Susanto, Dieky; Park, Jae‐Ho; Kim, Ji‐Young; Lim, Hee‐Dae; Chung, Kyung Yoon

doi:10.1002/adfm.202210370

Adv Funct Materials

2022

DOI: 10.1002/adfm.202210370

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Enhanced Cycle Stability of Low‐Cost Na‐Rich Metallic NaCl Electrode for Advanced Na‐Ion Batteries

Iqra Moeez

Dieky Susanto

Jae‐Ho Park

et al.

Abstract: Sodium-rich metallic Na x+z has received significant attention as a low-cost alternative to the conventional electrode materials used in Li-ion batteries. However, the poor cyclability of Na x Cl remains a major challenge to its practical application. Here, a simple method is developed for improving the electrochemical performance of Na x Cl by controlling the upper limit of cut-off voltage. It is demonstrated that additional Na-vacancy defects can be introduced in the NaCl structure during the high-voltage ac… Show more

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2024

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Densely Imidazolium Functionalized Water Soluble Poly(Ionic Liquid) Binder for Enhanced Performance of Carbon Anode in Lithium/Sodium‐Ion Batteries

Patra,

Matsumi

2024

Advanced Energy Materials

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The binder's choice holds immense significance in the quest for robust electrochemical performances of lithium/sodium‐ion battery's (LIB/SIB) electrodes. Conventional PVDF binder is a passive polymer lacking the ability to transport Li+/Na+ and facilitate ion kinetics. This limitation poses constraints in achieving high specific capacity, fast charging, and long cycle life. Herein, a novel water‐soluble concentrated imidazolium functionalized poly(ionic liquid), poly(oxycarbonylmethylene 1‐allyl‐3‐methyimidazolium) (PMAI) is synthesized, and evaluated it as binder in LIB/SIB. PMAI‐based anodic‐half cell exhibits excellent electrochemical performance, achieving higher capacities (297 mAhg−1 at 1C for LIBs and 250 mAhg−1 at 60 mAg−1 for SIBs) and good cycle stability (80 % capacity retention after 750 cycles for LIBs; 96% capacity retention after 200 cycles for SIBs), compared to PVDF binder. In addition, PMAI/Gr delivers a higher discharge capacity of 85 mAhg−1 than PVDF/Gr with 47 mAhg−1 at 5C. PMAI‐containing electrodes show better rate capability at different current densities than PVDF binder in LIB/SIB. The enhanced ion diffusion coefficient, lower resistance and decreased activation energy of desolvation, are ascribed to densely polar ionic liquid groups along the polymer and formation of a functionalized SEI via binder reduction. The novel PMAI binder's design and full‐cell examination confirm its potential in secondary‐ion battery applications.

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Densely Imidazolium Functionalized Water Soluble Poly(Ionic Liquid) Binder for Enhanced Performance of Carbon Anode in Lithium/Sodium‐Ion Batteries

Patra,

Matsumi

2024

Advanced Energy Materials

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Enhanced Cycle Stability of Low‐Cost Na‐Rich Metallic NaCl Electrode for Advanced Na‐Ion Batteries

Cited by 1 publication

References 38 publications

Densely Imidazolium Functionalized Water Soluble Poly(Ionic Liquid) Binder for Enhanced Performance of Carbon Anode in Lithium/Sodium‐Ion Batteries

Densely Imidazolium Functionalized Water Soluble Poly(Ionic Liquid) Binder for Enhanced Performance of Carbon Anode in Lithium/Sodium‐Ion Batteries

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