Construction of NiCo-Layered Double Hydroxide Microspheres from Ni-MOFs for High-Performance Asymmetric Supercapacitors

Ramachandran, Rajendran; Lan, Yangchun; Xu, Zong‐Xiang; Wang, Fei

doi:10.1021/acsaem.0c00790

Cited by 204 publications

(85 citation statements)

References 70 publications

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“…Due to the increases in energy consumption and the non-renewable sources decreasing gradually, the development of high-efficiency energy storage devices is highly demanded. Electrochemical or supercapacitors are the perfect choice for high-performance devices as the results of its high-power density and long cyclic lifetime [21]. Compared with the commercial activated carbon-based supercapacitors, the integration of Si-based materials with the current microelectronic technology can lead to higher performance in energy storage devices because of its high theoretical capacity (3579 mA hg −1 ).…”

Section: Siloxene Based Supercapacitorsmentioning

confidence: 99%

Novel Two-Dimensional Siloxene Material for Electrochemical Energy Storage and Sensor Applications

Ramachandran¹,

Xu²,

Wang³

2021

Novel Nanomaterials

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After discovering graphene, the two-dimensional materials have gained considerable interest in the electrochemical applications, especially in energy conversion, storage, and bio-sensors. Siloxene, a novel two-dimensional low-buckled structure of Si networks with unique properties, has received the researcher's attention for a wide range of applications. Though the electronic and optical properties of siloxene have been explored in detail previously, there is a lack of electrochemistry studies of siloxene as the result of material degradation, and the investigation is still open-ended to enhance the electrochemical application. Recently, siloxene has been used for supercapacitor, lithium-ion batteries, and dopamine bio-marker detections. This chapter highlights the recent development of siloxene synthesis and its electrochemical properties in energy and sensor applications. The plannar Si structure with Si 6 rings interconnected with different oxygen, hydroxyl functional groups, and large interlayer spacing of siloxene sheets can promote the active sites for enhanced electrochemical performance. This chapter provides the current state-of-the-art in the field and a perspective for future development in the electrochemistry field of siloxene.

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Section: Siloxene Based Supercapacitorsmentioning

confidence: 99%

Novel Two-Dimensional Siloxene Material for Electrochemical Energy Storage and Sensor Applications

Ramachandran¹,

Xu²,

Wang³

2021

Novel Nanomaterials

Self Cite

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“…Compared with pure metal materials, the LDHs own better chemical stability to enlarge their practical applications [ 23 ]. Recently, metal organic frameworks (MOFs) are utilized as a promising self-template to construct LDH materials with hollow or core–shell structure, which normally equip with large surface areas and porous architecture to alleviate the stress and endow their enhanced MA performance [ 24 , 25 ]. However, LDH monomers usually deliver limited local microcurrent networks, which directly result in poor conduction loss.…”

Section: Introductionmentioning

confidence: 99%

3D Ultralight Hollow NiCo Compound@MXene Composites for Tunable and High-Efficient Microwave Absorption

et al. 2021

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The 3D hollow hierarchical architectures tend to be designed for inhibiting stack of MXene flakes to obtain satisfactory lightweight, high-efficient and broadband absorbers. Herein, the hollow NiCo compound@MXene networks were prepared by etching the ZIF 67 template and subsequently anchoring the Ti3C2Tx nanosheets through electrostatic self-assembly. The electromagnetic parameters and microwave absorption property can be distinctly or slightly regulated by adjusting the filler loading and decoration of Ti3C2Tx nanoflakes. Based on the synergistic effects of multi-components and special well-constructed structure, NiCo layered double hydroxides@Ti3C2Tx (LDHT-9) absorber remarkably achieves unexpected effective absorption bandwidth (EAB) of 6.72 GHz with a thickness of 2.10 mm, covering the entire Ku-band. After calcination, transition metal oxide@Ti3C2Tx (TMOT-21) absorber near the percolation threshold possesses minimum reflection loss (RLmin) value of − 67.22 dB at 1.70 mm within a filler loading of only 5 wt%. This work enlightens a simple strategy for constructing MXene-based composites to achieve high-efficient microwave absorbents with lightweight and tunable EAB."Image missing"

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“…The MOFs derivate could inherit the porous microstructure of MOFs and displayed adjustable compositions. [ 44,76,114–123 ] Pristine MOFs were considered as Ramachandran et al. demonstrated the synthesis of NiCo‐LDHs through etching of Ni‐MOF precursor.…”

Section: Classifications Of Ascs With Carbon Materials As Electrodementioning

confidence: 99%

“…demonstrated the synthesis of NiCo‐LDHs through etching of Ni‐MOF precursor. [ 114 ] Through combining NiCo‐LDHs as cathode and CNT as anode, the hybrid SC was constructed and it showed excellent electrochemical performance with E d of 36.1 Wh kg −1 and 103.9% cycling stability after 5000 cycles. Onion‐like CuCo 2 O 4 hollow spheres (ON‐CCO) were synthesized through bimetal‐organic frameworks derived method and displayed remarkable electrochemical performances.…”

Section: Classifications Of Ascs With Carbon Materials As Electrodementioning

confidence: 99%

Recent Advances of Asymmetric Supercapacitors

Bai

Pan

et al. 2020

Adv Materials Inter

195

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Asymmetric supercapacitors (ASCs) have attracted significant attentions worldwide owing to their wider voltage window compared with symmetric supercapacitors (SCs). Through combinations of two electrodes with different charge storage mechanisms or different redox reactions, extended operating voltage window can be realized for ASCs. In this article, first the ASCs are classified into two types based on different charge storage mechanisms: electric double‐layer capacitive (EDLC)//pseudocapacitive‐type ASCs and EDLC//battery‐type hybrid SCs. For the EDLC/pseudocapacitive‐type ASC, carbon materials are adopted as anode and transition metal oxides including MnO2, RuO2, etc., are utilized as cathodes. For EDLC//battery‐type hybrid SCs, carbon materials as anode are combined with metal oxide/hydroxide such as NiO, and Ni(OH)2, etc., as cathode. Recently, Li‐ion‐based ASCs composed of carbon materials and Li‐ion battery‐type electrode materials with a Li‐containing organic electrolyte show great potentials to be promising alternatives. Some metal oxides/nitrides including InO2, Bi2O3, Fe3O4, Fe2O3, and VN can work in a negative potential range. By coupling another battery/pseudocapacitive electrode, all redox‐type ASCs are assembled and their electrochemical performances are widely studied. Then, based on the above categories recent advances of ASCs are summarized. Finally, the challenges and prospects for the development of ASCs are pointed out from perspectives of this study.

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Construction of NiCo-Layered Double Hydroxide Microspheres from Ni-MOFs for High-Performance Asymmetric Supercapacitors

Cited by 204 publications

References 70 publications

Novel Two-Dimensional Siloxene Material for Electrochemical Energy Storage and Sensor Applications

Novel Two-Dimensional Siloxene Material for Electrochemical Energy Storage and Sensor Applications

3D Ultralight Hollow NiCo Compound@MXene Composites for Tunable and High-Efficient Microwave Absorption

Recent Advances of Asymmetric Supercapacitors

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