High-performance flexible hybrid supercapacitor based on NiAl layered double hydroxide as a positive electrode and nitrogen-doped reduced graphene oxide as a negative electrode

超级电容器 材料科学 电极 尼亚尔 石墨烯 氢氧化物 兴奋剂 电化学 化学工程 氧化物 纳米技术 无机化学 复合材料 光电子学 冶金 化学 金属间化合物 物理化学 合金 工程类
作者
Min Li,Mathias Dolci,Pascal Roussel,Alexandre Barras,Sabine Szunerits,Rabah Boukherroub
出处
期刊:Electrochimica Acta [Elsevier BV]
卷期号:354: 136664-136664 被引量:27
标识
DOI:10.1016/j.electacta.2020.136664
摘要

Herein, we investigated the influence of Fe, Cr and Al incorporation in Ni-based layered double hydroxides (LDHs) supported on nickel foam (NF) electrodes, prepared through a one-step hydrothermal, on their electrochemical performance. The resulting NiFe, NiCr and NiAl (LDHs) were further coated on carbon spheres (CS) supported on NF using a facile two-step hydrothermal process to produce NiFe [email protected]/NF, NiCr [email protected]/NF and NiAl [email protected]/NF. The performance of the prepared materials as binder-free electrodes in supercapacitors was assessed. Among all the prepared electrodes, NiAl [email protected]/NF electrode material achieved the largest areal capacity (1042.2 mC cm−2 at 1 mA cm−2), as compared to the areal capacity values attained by NiFe [email protected]/NF (705.8 mC cm−2) and NiCr [email protected]/NF (814.9 mC cm−2) at 1 mA cm−2. Therefore, a hybrid supercapacitor device comprising NiAl [email protected]/NF as the positive electrode and N-doped reduced graphene/NF as the negative electrode was successfully fabricated. The device exhibited favorable flexibility, good mechanical properties and stability; the areal capacity remained ∼75% and ∼67% of the original value after 5000 and 10,000 cycles, respectively. The hybrid supercapacitor attained an energy density of 43 μWh cm−2 at a power density of 0.805 mW cm−2 and was applied successfully to operate a home-made windmill device continuously for 32 s. Moreover, two flexible NiAl [email protected]/NF//N-rGO/NF hybrid supercapacitors, connected in series, were able to light up a green, a red and a yellow LED in parallel, lasting for 37 s, 542 s and 199 s, respectively, indicating their potential application for flexible energy storage devices.
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