萨伦复合胺官能化 GO 层装饰的 ZIF-67 NiCo2S4 衍生物在超级电容器设备中的高性能应用。

IF 3.2 4区化学 Q2 CHEMISTRY, ANALYTICAL

Luminescence Pub Date : 2024-11-05 DOI:10.1002/bio.70018

N. Vijaya, S. Daisylin Anbu Sujitha, Amalraj Shankar, Suhas Khot, C. Barath Kanna, Mohamad S. AlSalhi, T. Selvankumar, Seong-Cheol Kim, Madhappan Santhamoorthy, Pugalenthi Ramesh

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引用次数: 0

摘要

该研究利用金属有机框架（MOF）开发了多胺功能化的氧化石墨烯支撑镍钴锰酸锂纳米材料。这种改性在氧化石墨烯电极表面添加了游离胺和氧官能团，使 2 theta 值从 11.2 降至 7.1，层间距值从 1.4 增至 7.8 nm。这种改性增强了表面特性，从而改善了润湿性和分散稳定性。此外，通过 ZIF-67 MOF 模板合成的 NiCo2S4 双金属纳米颗粒也进一步提高了性能。通过 XPS 光谱、FE-SEM、XRD 和拉曼光谱等多种技术分析，证实了 ZIF-67/f-GO/NiCo2S4 电极材料的成功制备。最终得到的 Salen-fGO@NiCo2S4 复合材料表现出令人印象深刻的比电容，在 10 A g-1 条件下达到 2581.65 F g-1，5000 次循环后容量保持率为 82%。在混合超级电容器中使用这种复合材料，可分别获得 40 W kg-1 和 920 W kg-1 的显著能量密度和功率密度，同时在 10 A g-1 时保持 74% 的容量保持率。这些发现为先进的储能应用提供了广阔的前景。

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ZIF-67 derivatives of NiCo2S4 Decorated in Salen-Complex Amine Functionalization GO Layers for High-Performance Applications in Supercapacitor Devices

The study develops polyamine-functionalized graphene oxide–supported NiCo₂S₄ nanomaterial using a metal–organic framework (MOF). This modification adds free amines and oxygen functionality to the graphene oxide electrode surface, resulting in the decrease in the 2 theta value from 11.2 to 7.1 and an increase in the interlayer spacing value from 1.4 to 7.8 nm. This modification enhances the surface properties, leading to improved wettability and dispersion stability. Additionally, bimetallic nanoparticles of NiCo₂S₄, synthesized via the ZIF-67 MOF template, further enhance performance. Analysis confirms the successful fabrication of ZIF-67/f-GO/NiCo₂S₄ electrode material through various techniques such as XPS spectra, FE-SEM, XRD, and Raman spectra. The resulting Salen-fGO@NiCo₂S₄ composite exhibits impressive specific capacitance, reaching 2581.65 F g⁻¹ at 10 A g⁻¹ with 82% capacity retention after 5000 cycles. Employing this composite in a hybrid supercapacitor yields remarkable energy and power densities of 40 and 920 W kg⁻¹, individually, while maintaining 74% capacity retention rate at 10 A g⁻¹. These findings offer promising prospects for advanced energy storage applications.

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来源期刊

Luminescence 生物-生化与分子生物学

CiteScore

5.10

自引率

13.80%

发文量

248

审稿时长

3.5 months

期刊介绍： Luminescence provides a forum for the publication of original scientific papers, short communications, technical notes and reviews on fundamental and applied aspects of all forms of luminescence, including bioluminescence, chemiluminescence, electrochemiluminescence, sonoluminescence, triboluminescence, fluorescence, time-resolved fluorescence and phosphorescence. Luminescence publishes papers on assays and analytical methods, instrumentation, mechanistic and synthetic studies, basic biology and chemistry. Luminescence also publishes details of forthcoming meetings, information on new products, and book reviews. A special feature of the Journal is surveys of the recent literature on selected topics in luminescence.