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突破壁垒:用于先进钠离子电池的具有高初始库仑效率的粘合剂辅助NiS/NiS异质结构阳极

Breaking Barriers: Binder-Assisted NiS/NiS Heterostructure Anode with High Initial Coulombic Efficiency for Advanced Sodium-Ion Batteries.

作者信息

Khan Rashid, Wan Zhengwei, Ahmad Waqar, Hussain Shabab, Zhu Jianhua, Qian Dan, Wu Zhuoying, Saleem Muhammad Farooq, Ling Min

机构信息

Zhejiang Provincial Key Laboratory of Advanced Chemical Engineering Manufacture Technology, College of Chemical and Biological Engineering, Zhejiang University, Hangzhou 310027, P. R. China.

Henan Institute of Advanced Technology, Zhengzhou University, Zhengzhou 450003, P. R. China.

出版信息

ACS Appl Mater Interfaces. 2023 Aug 9;15(31):37486-37496. doi: 10.1021/acsami.3c06896. Epub 2023 Jul 26.

DOI:10.1021/acsami.3c06896
PMID:37492883
Abstract

Developing sodium-ion batteries (SIBs) with high initial coulombic efficiency (ICE) and long-term cycling stability is crucial to meet energy storage device requirements. Designing anode materials that could exhibit high ICE is a promising strategy to realize enhanced energy density in SIBs. A trifunctional network binder substantially improves the electrochemical performance and ICE, providing excellent mechanical properties and strong adhesion strength. A rationally designed electrode material and binder can achieve high ICE, long cycling performance, and excellent specific capacity. Here, a NiS/NiS heterostructure as an anode material and a trifunctional network binder (SA-g-PAM) are designed for SIBs. Unprecedently, the anode comprising of an SA-g-PAM binder achieved the highest ICE of 90.7% and remarkable cycling stability for 19000 cycles at a current density of 10 A g and maintained the specific capacity of 482.3 mAh g even after 19000 cycles. This exciting work provides an alternate direction to the battery industry for developing high-performance electrode materials and binders with high ICE and excellent cycling stability for energy storage devices.

摘要

开发具有高初始库仑效率(ICE)和长期循环稳定性的钠离子电池(SIB)对于满足储能设备的要求至关重要。设计能够展现出高ICE的负极材料是实现提高SIB能量密度的一种有前景的策略。一种三功能网络粘结剂可显著改善电化学性能和ICE,提供优异的机械性能和强粘结强度。合理设计的电极材料和粘结剂能够实现高ICE、长循环性能和出色的比容量。在此,设计了一种作为负极材料的NiS/NiS异质结构和一种三功能网络粘结剂(SA-g-PAM)用于SIB。前所未有的是,由SA-g-PAM粘结剂组成的负极在10 A g的电流密度下实现了90.7%的最高ICE以及19000次循环的卓越循环稳定性,甚至在19000次循环后仍保持482.3 mAh g的比容量。这项令人振奋的工作为电池行业开发具有高ICE和出色循环稳定性的高性能电极材料和粘结剂以用于储能设备提供了一个新方向。

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