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Tunable Three-Dimensional Nanostructured Conductive Polymer

Three-dimensional (3D) nanostructured conducting polymer hydrogels represent a group of high-performance electrochemical energy-storage materials. Here, we demonstrate a molecular self-assembly approach toward controlled synthesis of nanostructured polypyrrole (PPy) conducting hydrogels, which was "cross-linked" by a conjugated dopant molecule trypan

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Recent advancement in energy storage technologies and their

There are three main types of MES systems for mechanical energy storage: pumped hydro energy storage (PHES), compressed air energy storage (CAES), and flywheel energy storage (FES). Each system uses a different method to store energy, such as PHES to store energy in the case of GES, to store energy in the case of gravity energy stock, to store

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Construction of a Three-Dimensional BaTiO 3 Network for

Three-dimensional BaTiO3 (3D BT)/polyvinylidene fluoride (PVDF) composite dielectrics were fabricated by inversely introducing PVDF solution into a continuous 3D BT network, which was simply constructed via the sol-gel method using a cleanroom wiper as a template. The effect of the 3D BT microstructure and content on the dielectric and energy

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Versatile zero‐ to three‐dimensional carbon for electrochemical

This review summarizes different dimensional carbon materials in various electrochemical energy storage applications, especially the effect of carbon dimensional

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Synthesis of Three-Dimensional Graphene-Based Materials for

Based on this, this review focuses on the fabrication of three-dimensional graphene-based materials and their applications in energy storage, such as metal ion batteries

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Three-dimensional ordered porous electrode materials for

NPG Asia Materials - Three-dimensional ordered porous materials can improve the electrochemical storage of energy. Jing Wang and Yuping Wu from Nanjing Tech University, China and co-workers review

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A review of three-dimensional graphene-based materials: Synthesis

Graphene is an indefinitely extended two-dimensional (2D) carbon crystal, in which carbon atoms are packed in a hexagonal lattice resembling a honeycomb with long-range π-conjugation [[1], [2], [3]].With this unique structure, it shows numerous fascinating properties, such as related extra high carrier mobility [4], excellent mechanical strength and flexibility [5],

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Strain engineering of two-dimensional materials for energy storage

Two-dimensional (2D) materials have garnered much interest due to their exceptional optical, electrical, and mechanical properties. Strain engineering, as a crucial approach to modulate the

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Journal of Materials Chemistry A

Metal oxides have attracted considerable attention as promising electrode materials for energy storage, but the use of metal oxides for electrodes still faces challenges such as attaining high capacity, good cycle stability, and high-rated performance. Journal of Materials Chemistry A. In situ fabrication of three-dimensional,

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Three-dimensional printing of graphene-based materials and the

Four main 3D printing techniques, i.e. inkjet printing, direct ink writing, fused deposition modeling, and stereolithography, are sequentially reviewed. In addition, two types of

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Three-dimensional hierarchical nickel–cobalt–sulfide nanostructures for

To meet the ever-growing global demand for highly efficient and reliable energy storage systems, novel three-dimensional (3D) hierarchical porous cobalt–nickel–sulfide, H-(Co, Ni) 3 S 2, nanostructures were designed and fabricated.The electrodes, based on a 3D hierarchical, porous nanoarchitecture, exhibit outstanding comprehensive performance with

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Three-dimensional numerical study on finned reactor

Thermochemical heat storage (TCHS) technology offers a possible solution by capturing and storing energy from different sources such as solar, geothermal, and industrial waste heat for later use (Jiang et al., 2017, Li et al., 2009).Additionally, TCHS helps reduce carbon emissions and reliance on fossil fuels, promoting greater energy sustainability (Yu et al., 2013).

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Three-dimensional seamless graphene/carbon nanotube hybrids

Graphene and carbon nanotubes (CNTs) have been widely used as electrode materials for electrochemical energy storage devices (e.g., supercapacitors), but often result in limited performance because of their serious aggregation.To address the aforementioned crucial issue, herein, a three-dimensional seamless graphene/carbon nanotubes (G/CNTs) hybrid was

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Engineering three-dimensional hybrid supercapacitors and

Engineering three-dimensional hybrid supercapacitors and microsupercapacitors for high-performance integrated energy storage March 2015 Proceedings of the National Academy of Sciences 112(14)

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Three-dimensional polymer networks for solid-state

However, energy storage systems fabricated from organic polymer networks have just emerged as a new prospect. 3D polymer is a category of pure polymer or composites featuring three-dimensional frameworks structure, which could be potentially used in solid-state electrochemical energy storage due to its high electron conductivity or ionic

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Recent development of three-dimension printed graphene oxide

The research for three-dimension (3D) printing carbon and carbide energy storage devices has attracted widespread exploration interests. Being designable in structure and materials, graphene oxide (GO) and MXene accompanied with a direct ink writing exhibit a promising prospect for constructing high areal and volume energy density devices. This review

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Lightweight Three-Dimensional Cellular MXene Film for Superior

A three-dimensional (3D) cellular MXene (Ti 3 C 2 T x) film is fabricated through the filtration assembly of MXene microgels and a subsequent freeze-casting process. Fully

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Three-dimensional ordered porous electrode materials for

Three types of TiO 2 have been well investigated, namely, TiO 2(B), anatase, and rutile.Among them, the rutile phase of TiO 2 is the most common natural form since it is the most thermodynamically

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3D printed energy devices: generation, conversion, and storage

The energy devices for generation, conversion, and storage of electricity are widely used across diverse aspects of human life and various industry. Three-dimensional (3D) printing has emerged as

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Versatile zero‐ to three‐dimensional carbon for electrochemical energy

This review summarizes the zero- to three-dimensional carbon-based materials and reviews their various electrochemical applications based on their structural characteristics.

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Three-dimensional Co2V2O7·nH2O superstructures assembled by nanosheets

Three-dimensional Co 2 V 2 O 7 ·nH 2 O superstructures assembled by nanosheets were prepared by a facile hydrothermal method. And the Co 2 V 2 O 7 ·nH 2 O hierarchical structure exhibits good electrochemical performance, which probably is that the hierarchical structures with sufficient interior space preserves the original sheet-like

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Zero-Dimensional Carbon Nanomaterials for Electrochemical Energy Storage

The demand for hybrid materials containing components of different nature and properties in energy-related application areas is constantly increasing. 166 Zero-dimensional (0D) carbon nanomaterials such as CQDs or GQDs show broad prospects in the field of energy storage and conversion. 167 The fast electron transfer and relatively high surface

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Strain engineering of two-dimensional materials for energy storage

Two-dimensional (2D) materials have garnered much interest due to their exceptional optical, electrical, and mechanical properties. Strain engineering, as a crucial approach to modulate the physicochemical characteristics of 2D materials, has been widely used in various fields, especially for energy storage and conversion. Herein, the recent progress in

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Three dimensional graphene based materials: Synthesis and

Three dimensional graphene based materials: Synthesis and applications from energy storage and conversion to electrochemical sensor and environmental remediation. As shown in Fig. 3, an oxidative chemical solution was infiltrated into CNT porous sponge to induce intercalation of the nanotube walls from the defects,

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Ultralight three-dimensional, carbon-based nanocomposites for

Latent heat based thermal energy storage (LHTES) using organic phase change materials (PCM) has the potential to support the system balancing energy generation, demand and supply, thus contributing to the carbon footprint management via achieving an improved overall efficiency. Three-dimensional (3D) images of the CFs were recorded with an

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Three-dimensional graphene-based macrostructures for sustainable energy

In this review, we summarize the key aspects of recently developed functional 3D GBMs, including their morphologies and architectures as reported in the literature over the last five years, and discuss their potential applications in (1) energy storage (i.e., lithium-ion batteries, supercapacitors, and hydrogen storage), (2) energy conversion (i.e., fuel cells, dye-sensitized

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Dielectric capacitors with three-dimensional nanoscale interdigital

Recently, it was reported that three-dimensional (3D) interdigital electrodes could improve the performance of electrical energy storage systems . In succession, 3D interdigital microelectrodes (they are actually 2D interdigital current collectors) have been fabricated to enhance the performance of supercapacitors ( 25 ) and batteries ( 26, 27 ).

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Dielectric capacitors with three-dimensional nanoscale interdigital

Dielectric capacitors are promising candidates for high-performance energy storage systems due to their high power density and increasing energy density. However, the traditional approach

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About Three-dimensional chemistry adds energy storage

About Three-dimensional chemistry adds energy storage

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