Modulating NH4+ in vanadium oxide framework for high-efficient aqueous NH4+ storage

氧化钒 超级电容器 水溶液 插层(化学) 储能 无机化学 材料科学 电化学 离子 电容 密度泛函理论 氧化物 化学工程 化学 物理化学 电极 有机化学 计算化学 冶金 工程类 功率(物理) 物理 量子力学
作者
Xianfang Tan,Fangfang Zhang,Dongzhi Chen,Peng Wang,Yanyan Liu,Changgong Meng,Yifu Zhang
出处
期刊:Chemical Engineering Journal [Elsevier BV]
卷期号:489: 151119-151119 被引量:85
标识
DOI:10.1016/j.cej.2024.151119
摘要

Aqueous energy storage systems have garnered significant attention due to their inherent advantages, including low cost, high eco-sustainability, and enhanced safety profiles. Nonmetal ion as a charge carrier is a fascinated paradigm shift just recently. Vanadium-based materials for ammonium ion (NH4+) storage have received considerable interest and have been demonstrated to serve as highly efficient NH4+ (de)intercalation host materials. However, tuning their structure for enhanced NH4+ storage presents significant challenges. Herein, we report a strategy for the pre-intercalation of NH4+ in vanadium oxide framework to study on the influence of the amount of ammonium ions on their NH4+ storage properties. The results from the experiments and density functional theory (DFT) calculations demonstrate that the appropriate quantity of pre-inserted ammonium ions boosts the (de)intercalation of NH4+ and exhibits the superior electrochemical properties. Moreover, excessive pre-inserted ammonium ions in vanadium oxide framework occupy the active sites for storing NH4+, whereas insufficient pre-inserted ammonium ions in vanadium oxide framework do not support the interlayer space enough for rapid (de)intercalation of NH4+. All results elucidate that modulating NH4+ in vanadium oxide framework enables highly efficient aqueous ammonium ion storage for supercapacitors (SCs). At 0.5 A·g−1, the specific capacitance of 341F·g−1 (171 mAh·g−1) and stable cycle performance of nearly 100 % after 10,000 cycles are achieved. The assembled hybrid supercapacitor exhibits the capacitance with 330 mF·cm−2 at 1 mA·cm−2, and energy density with 13.7 Wh·kg−1 at 22.1 W·kg−1, complemented by commendable mechanical durability and energy output characteristics. The profound insights gleaned from this study illuminate the strategic modulation of NH4+ ions, unveiling the vast potential of vanadium-based materials for efficient NH4+ storage applications.
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