What are amorphous materials?
Amorphous materials with unique structural features of long-range disorder and short-range order possess advantageous properties such as intrinsic isotropy, abundant active sites, structural flexibility, and fast ion diffusion, which are emerging as prospective electrodes for electrochemical energy storage and conversion.
Are amorphous nanomaterials a promising electrode material?
To date, amorphous nanomaterials are emerging as prospective electrode materials with outstanding electrochemical performance in the field of LIBs, Li-metal batteries, and supercapacitors owing to their unique physico-chemical properties.
What are amorphous nanomaterials used for?
Special attention is devoted to the fundamental understanding of the underlying electrochemical energy storage mechanisms and to the significant roles that amorphous nanomaterials can play in different electrochemical applications, including Li-ion batteries, Li-metal batteries, and supercapacitors.
What is the underlying electrochemical mechanism of amorphous materials?
Limited by the structural intricacy of amorphous materials, the underlying electrochemical mechanism is still unclear. Developing new in situ characterization techniques and theoretical models is of great importance.
Can self-supported amorphous nanomaterials be used for energy storage and conversion devices?
In particular, tremendous efforts have been devoted to the design, fabrication, and evaluation of self-supported amorphous nanomaterials as electrodes for energy storage and conversion devices in the past decade.
Why are amorphous nanomaterials a good electrocatalyst?
It is known that electrocatalysts are wildly employed in some specific reactions in metal-air batteries, water-splitting devices, and fuel cells. Among a great variety of electrocatalysts, amorphous nanomaterials show higher catalytic performances than their crystalline counterparts due to many unique physico-chemical properties.
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Amorphous MOFs for next generation supercapacitors and …
Hitherto, there has been limited reviews focusing on amorphous MOFs for energy storage, despite their significant potentials in this area. 20,39,40 Given the recent developments on amorphous MOFs in energy storage, we aim to highlight and provide our perspectives on these materials, which encompasses discrete amorphous MOF powders, melt ...
Get Price →Amorphous Electrode: From Synthesis to …
In this perspective, we summarize the recent research regarding amorphous materials for electrochemical energy storage. This review covers the advantages and features of amorphous materials, the synthesis strategies to prepare …
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Get Price →Amorphous materials emerging as prospective electrodes for ...
Amorphous materials emerging as prospective electrodes for electrochemical energy storage and conversion : :23.5 :Chem : : :9 :5 :1080-1093 : :2023-05-11 :SCI
Get Price →Amorphous/Crystalline Heterostructured Nanomaterials: An ...
Amorphous/Crystalline Heterostructured Nanomaterials: An Emerging Platform for Electrochemical Energy Storage Small ( IF 13.0) Pub Date : 2025-02-28, DOI: 10.1002/smll.202411941
Get Price →Unlocking electrochemical potential: amorphous NaFePO4 ...
Traditional cathode materials are well-defined high crystalline structures, but the repeated ion insertion/extraction with high lattice stress and volume change during the charge/discharge will cause structural degradation and diminish electrochemical performance. Herein we identify an amorphous iron phosphate electrode, NaFePO4, which can be …
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Amorphous materials, which bear a unique entity of randomly arranged atoms, have aroused a great deal of attention in the field of electrochemical energy storage and conversion recently due to their specific characteristics, such as intrinsic isotropy, defect distribution, and structural flexibility. ...
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Amorphous materials, which bear a unique entity of randomly arranged atoms, have aroused a great deal of attention in the field of electrochemical energy storage and …
Get Price →Crystalline NiCo2O4 and amorphous NiCo2S4
Crystalline NiCo 2 O 4 and amorphous NiCo 2 S 4 heterostructured electrode for high-performance asymmetric supercapacitors. Author links open overlay panel Dan Wang a, Jibiao Wang a, ... Recent advances in metal oxide-based electrode architecture design for electrochemical energy storage. Adv. Mater., 24 (2012), pp. 5166-5180. Crossref View in ...
Get Price →Amorphous Electrode: From Synthesis to Electrochemical Energy Storage
The key to further commercial applications of electrochemical energy storage devices is the design and investigation of electrode materials with high energy density and significant cycling ...
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Download Citation | On Apr 1, 2023, Tianqi Guo and others published Amorphous materials emerging as prospective electrodes for electrochemical energy storage and conversion | Find, read and cite ...
Get Price →Amorphous nickel pyrophosphate microstructures for high-performance ...
In this work, we focus on the development of a high-performance flexible solid-state electrochemical energy storage device based on amorphous nickel pyrophosphate microstructures (positive) and graphene nanosheets (negative) electrodes. KOH-polyvinyl alcohol (PVA) gel was successfully applied as the solid state electrolyte.
Get Price →414.Amorphous materials emerging as prospective …
414.Guo T, Hu P, Li L, et al. Amorphous materials emerging as prospective electrodes for electrochemical energy storage and conversion[J]. Chem, 2023, 9(5): 1080-1093
Get Price →Research Advances of Amorphous Metal Oxides in Electrochemical Energy ...
a,b) The structure models of crystalline and amorphous Fe 2 O 3 . c-e) Schematic illustrations of the advantages of the amorphous Fe 2 O 3 serving as active hosts for lithium-ion storage compared ...
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Furthermore, the amorphous electrode experiences less impact from shape rearrangements and volume changes compared to its crystalline counterpart because of its inherent irregular and disordered structure. Therefore, utilizing amorphous materials is an effective approach for achieving enhanced electrochemical energy storage performance [75 ...
Get Price →Construction of amorphous/crystalline heterointerfaces for …
To satisfy the increasing demand for advanced energy storage and electrochemical conversion devices, electrode materials with innovative electrochemical properties are much needed. Typically, crystalline nanomaterials have been produced for energy storage and conversion applications, but their electrochemical properties are primarily determined ...
Get Price →High-Entropy Alloys and Oxides as …
This study compares the electrochemical performance of high-entropy alloys (HEA) and oxides (HEO) as supercapacitor electrodes. HEO demonstrates superior energy and power density due to its capacitiv...
Get Price →Manipulation on Two-Dimensional Amorphous …
Low-carbon society is calling for advanced electrochemical energy storage and conversion systems and techniques, in which functional electrode materials are a core factor. As a new member of the material family, two-dimensional amorphous nanomaterials (2D ANMs) are booming gradually and show promising application prospects in electrochemical fields for …
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With the expanding adoption of large‐scale energy storage systems and electrical devices, batteries and supercapacitors are encountering growing demands and challenges related to their energy ...
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This work underscores the impressive storage performance of the crystalline–amorphous rectifying heterogeneous cathodes and highlights the surface amorphous heterogenization of …
Get Price →Amorphous vanadium oxides for electrochemical energy storage …
<p>Vanadium oxides have attracted extensive interest as electrode materials for many electrochemical energy storage devices owing to the features of abundant reserves, low cost, and variable valence. Based on the in-depth understanding of the energy storage mechanisms and reasonable design strategies, the performances of vanadium oxides as electrodes for batteries …
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Compared to crystalline vanadium oxides, amorphous vanadium oxides (AVOs) show many unique properties, including large specific surface area, excellent electrochemical …
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Structural instability in electrode materials is a critical barrier to the practical application of potassium-ion batteries (PIBs) in terms of long-term durability. To overcome this, …
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Batteries and supercapacitors have become the two most important technologies in the forefront of the electrochemical energy storage (EES) systems due…
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In the electrochemical study, the amorphous, hydrous nickel phosphate electrode demonstrates a superior specific capacitance of 1700 F g −1 ... P-O covalent bond in metal phosphate exhibits excellent stable structure of material, which is a prime prerequisite of electrochemical energy storage devices [11].
Get Price →Amorphous/Crystalline Heterostructured Nanomaterials: An …
AC-HNMs leverage synergistic interactions between their amorphous and crystalline phases, along with abundant interface effects, which enhance capacity output and …
Get Price →Roadmap of amorphous metal-organic framework for electrochemical energy ...
Metal-organic frameworks (MOFs), a well-known coordination network involving potential voids, have attracted attention for energy conversion and storage. As far as is known, MOFs are not only believed to be crystalline. Emerging amorphous MOFs (aMOFs) are starting as supplementary to crystalline MOF (cMOF) in various electrochemical energy fields owing to …
Get Price →Advance in 3D self-supported amorphous nanomaterials for energy storage ...
In this review, we aim to outline the achievements made in recent years in the development of 3D self-supported amorphous nanomaterials for a broad range of energy …
Get Price →Three-Dimensional Co3O4 Nanowires@Amorphous Ni(OH)2 …
A Co 3 O 4 @Ni(OH) 2 core/shell nanowire arrays (NAs) material is synthesized and successfully applied to the energy storage device. Combining the performance advantages of Co 3 O 4 nanowires and Ni(OH) 2 nanosheets, Co 3 O 4 @Ni(OH) 2 NAs exhibit a remarkable specific capacity (SC) of 912C g −1 at the current density of 1 A g −1, good rate capability and …
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