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Semantic Scholar extracted view of "Construction of an Additional Hierarchical Porous Framework in Carbon Fabric for Applications in Energy Storage" by Chuan‐Sheng Cho et al. DOI: 10.1021/acs emmater.2c00447 Corpus ID: 250153982 Construction of an
The MOFs with their fascinating features including extremely porous structure, wide surface area, customizable pore functioning, and adjustable architecture reflect tremendous potential as an effective candidate for
2 · Figure 2a shows the XRD patterns of these CNSs.There were two broad diffraction peaks located around 23 and 44, which was a typical feature of amorphous
Three-dimensional graphene (3DG)/metal–organic framework (MOF)-based composites have attracted more and more attention in the field of energy due to their unique hierarchical porous structure and properties. The combination of graphene with MOFs can not only effectively overcome the limitations of poor elect
In this article, we systematically reviewed these strategies including (1) confinement of rigid PCM into flexible porous scaffolds, (2) encapsulation of PCM into elastic shells, and (3) development of intrinsically flexible PCM based on molecularly
This circumstance has expedited research efforts toward novel electrode materials for flexible energy storage devices. Nonetheless, Super-flexible porous carbon fibrous film 309 0.178 EDLC, 10.3 W h kg −1, 250 W kg −1, 8k cycles, 94.6% [] Carbon aerogels
In the pursuit of advancing materials for methane storage, a critical consideration arises given the prominence of natural gas (NG) as a clean transportation fuel, which holds substantial potential for alleviating the strain on both energy resources and the environment in the forthcoming decade. In this context, a novel approach is undertaken,
Metal-organic framework derived porous flakes of cobalt chalcogenides (CoX, X = O, S, Se and Te) rooted in carbon fibers as flexible electrode materials for pseudocapacitive energy storage. Electrochimica Acta 2021, 369, 137681.
DOI: 10.1021/acsenergylett.9b02625 Corpus ID: 213627025 Metal–Organic Framework-Based Materials for Energy Conversion and Storage @article{Qiu2020MetalOrganicFM, title={Metal–Organic Framework-Based Materials for Energy Conversion and Storage}, author={Tianjie Qiu and Zibin Liang and Wenhan Guo
In this work, we review recent research progress on batteries for wearable electronics based on structures and materials, covering the fundamental mechanics underlying the structural design
Many different porous materials have been considered for adsorptive, reversible methane storage, but fall short of the US Department of Energy targets (0.5 g g−1, 263 l l−1).
a family of crystalline porous polymers that are being studied for electrochemical energy storage Conductive Nanofibers for Flexible Energy Storage Device September 2020 Carbon 171 DOI:10.1016
The emerging porous framework materials such as metal–organic frameworks (MOFs), covalent organic frameworks (COFs) and hydrogen-bonded
Energy storage technologies can solve the contradiction between energy supply and demand in time and space, thus improving energy utilization efficiency. Developing novel energy storage techniques has been considered as one of the most effective strategies for the utilization of various renewable energies in terms of energy
The symmetric supercapacitor integrated by the flexible electrodes combining the p-PPy/Cu-CAT hybrid and the carbon cloth achieves a specific capacitance of 233 mF cm
Multi-scale uniform Li regulation triggered by tunable electric field distribution on oxygen-functionalized porous framework for flexible Li-S full Energy Storage Materials ( IF 17.789) Pub Date, DOI:
The ultrafine pore environmental regulation of CAU-10-X MOFs encourages us to further investigate their C 2 H 2 storage performance. The C 2 H 2 adsorption isotherms of CAU-10-H/–NH 2 /–N 2 H 3 at 298 K are typical curves for the rigid porous frameworks with the uptake of 98 cm 3 cm −3, 102 cm 3 cm −3 and 76 cm 3 cm −3 at 1 atmosphere,
Highlights. •. The modified flexible balsa wood was synthesized and applied in energy storage. •. Methane hydrate induction time was reduced by ∼88% and the storage capacity was enhanced to 150.6 v /v. •. The 400 wt% water loaded case exhibited the best storage performance. •.
The Co 3 O 4 @Co-MOF//AC solid-state flexible device indicated a peak energy density of 21.6 mW h cm −3 (Fig. 5d). Furthermore, the peak power density of the solid-state flexible device was 1373.2 mW cm −3
Abstract Three-dimensional graphene (3DG)/metal–organic framework (MOF)-based composites have attracted more and more attention in the field of energy due to their unique hierarchical porous structure and properties. The combination of
Selecting flexible porous scaffolds is essential to impart PCMs with shape deformation property [24, 25]. the PDMS/BN20/PPy/PW PCCs possess satisfied thermal energy storage property and thermal cycling stability, showing high utility value in the long .
DOI: 10.1016/j.carbon.2020.09.003 Corpus ID: 225013682 Redox active covalent organic framework-based conductive nanofibers for flexible energy storage device @article{Kong2021RedoxAC, title={Redox active covalent organic framework-based conductive nanofibers for flexible energy storage device}, author={Xueying Kong and
Metal–organic framework-derived one-dimensional porous or hollow carbon-based nanofibers for energy storage and conversion Chaohai Wang† a, Yusuf Valentino Kaneti† * bc, Yoshio Bando cd, Jianjian Lin b, Chao Liu a, Jiansheng Li * a and Yusuke Yamauchi * ef a Jiangsu Key Laboratory of Chemical Pollution Control and Resources Reuse, School of
In this article, we systematically reviewed these strategies including (1) confinement of rigid PCM into flexible porous scaffolds, (2) encapsulation of PCM into
Abstract Natural-drying graphene aerogel (GA) with hierarchical porous framework architecture has been prepared, providing excellent mechanical and electrochemical properties. When used as electrode material for supercapacitors, GA achieves excellent capacitance of 240 F g−1 at a current density of 0.2 A g−1. Also, GA
Metal–organic frameworks (MOFs), a novel type of porous crystalline materials, have attracted increasing attention in clean energy applications due to their high surface area, permanent porosity, and controllable structures. MOFs are excellent precursors for the design and fabrication of nanostructured porous carbons and metal
With the swift advancement of the wearable electronic devices industry, the energy storage components of these devices must possess the capability to maintain stable mechanical and chemical properties after undergoing multiple bending or tensile deformations. This circumstance has expedited research efforts toward novel electrode
The true promise of MXene as a practical supercapacitor electrode hinges on the simultaneous advancement of its three-dimensional (3D) assembly and the engineering of its nanoscopic architecture, two critical factors for facilitating mass transport and enhancing an electrode''s charge-storage performance. Herein, we present a
1. Introduction. Phase change materials (PCMs) have attracted tremendous attention in the field of thermal energy storage owing to the large energy storage density when going through the isothermal phase transition process, and the functional PCMs have been deeply explored for the applications of solar/electro-thermal
The electrically conductive Cobalt-benzene-1,3,5-tribenzoate metal–organic framework (Co-BTB) was easily synthesized using the hydrothermal synthesis process. The framework showed a low overpotential (only 170 mV to obtain 10 mA cm −2) for the oxygen evolution reaction (OER) surpassing the benchmark electrocatalyst IrO 2 which showed
Porous NiMoO4 Nanosheet Films and a Device with Ultralarge Optical Modulation for Electrochromic Energy-Storage Applications. Nano Letters 2024, 24 (3), 814-821.
We further demonstrate that the assembled polyFe films can be used to fabricate a smart energy-storage indicator, in which the energy-storage level is visually perceptible and recognizable in real time.
Facile and scalable fabrication of nitrogen-doped porous carbon nanosheets for capacitive energy storage with ultrahigh energy density ACS Appl. Mater. Interfaces, 11 ( 2019 ), pp. 20029 - 20036
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1 Introduction The rapid rise of flexible electronics is leading a set of revolutionary technologies, such as wearable electronics, electronic skin, smart clothing, foldable phones, implantable medical
Metal-organic frameworks (MOFs) are a class of porous materials with unprecedented chemical and structural tunability. Their synthetic versatility, long-range
Covalent organic frameworks (COFs) constitute a family of crystalline porous polymers that are being studied for electrochemical energy storage. However, their low electrical conductivity and
Ouyang Y, Zong W, Wang J, et al. Multi-scale uniform Li regulation triggered by tunable electric field distribution on oxygen-functionalized porous framework for flexible Li-S full batteries. Energy Storage Mater, 2021, 42: 68–77 Article Google ScholarGao Jet al.
This signifies that the COF synthesized here can be used for electrochemical energy storage devices. Earlier MOFs have been used for high proton conductivity; to serve as proton-conductive materials in proton exchange membranes, they must address various obstacles, including restricted hydrothermal stability, inadequate
At present, applying these flexible energy storage devices to power everyday electronics is still limited in the laboratory. (4) As future technological innovations gear toward miniaturizing electronics and maximizing performance, there is an increasing demand to extend the scope of the current systems to fabricate lightweight and thin
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