Construction of multi-channel basic cobalt/nickel phosphate core-shell microsphere for superior hybrid Zn-based supercapacitor performances

超级电容器 功率密度 介孔材料 储能 材料科学 化学工程 电压 纳米技术 光电子学 电气工程 冶金 化学 电容 功率(物理) 电极 催化作用 工程类 物理化学 物理 量子力学 生物化学
作者
Yaqi Wu,Ying Deng,Jiaxin Zhang,Shujuan Lv,Zhenyu Xiao,Lu Liu,Xiaoping Jia,Chao Chen,Zhenhua Dang,Zhenjiang Li,Lei Wang
出处
期刊:Chemical Engineering Journal [Elsevier BV]
卷期号:455: 140953-140953 被引量:44
标识
DOI:10.1016/j.cej.2022.140953
摘要

Although unparalleled power density and life-span are achieved by supercapacitor devices, the related lower energy density and linear decreased output voltage still limit their applications in commercial energy storage equipment. In this work, a high performance multi-channel basic cobalt/nickel phosphate core–shell microsphere (BCNP) is firstly constructed and further fabricated with rGO-Zn negative electrode to form a hybrid BCNP//rGO-Zn supercapacitor device, which delivers an outstanding energy density of 376.5 Wh kg−1 at 1.66 kW kg−1 and a stable cell output voltage at 1.5–1.8 V. The excellent energy storage performance may attribute to the following two reasons: Firstly, the in-situ ions exchanging process between large-sized BTC3− anions and small-sized inorganic anions (OH− and PO43−) can not only make BCNP inherits the high surface area of MOF parents but also produces rich “tree-vein-like” mesoporous multi-channels, which dramatically increased the capacity, ratio and life-span of BCNP core–shell microsphere. Secondly, the introduced rGO-Zn negative electrode dramatically increased the output voltage of BCNP//rGO-Zn for boosted energy density. The as-fabricated BCNP//rGO-Zn device with the loading of 4 mg active BCNP can power a 1.5 V thermometer surpass 3 h by charging about one minute, revealing its outstanding application prospect.
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