Helical carbon tubes derived from epitaxial Cu MOF coating

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Translate this pageHelical carbon tubes derived from epitaxial Cu-MOF coating on textile for enhanced supercapacitor performance [J]. Dalton Trans,2018,47(16):5558-5563. doi 10.1039/C8DT00761F [87] MANDEMAKER L D B, RIVERATORRENTE M, DELEN G, et al. Nanoweb surface-mounted metalorganic framework films with tunable amounts of acid sites as tailored Helical carbon tubes derived from epitaxial Cu MOF coating 0DWHULDO (6, IRU'DOWRQ7UDQVDFWLRQV Textile for Helical Carbon Tubes Derived from Epitaxial Cu-MOF Coating on Textile for Enhanced Supercapacitor Performance De-Jing Li,abBBNg Lei,aYan-Yue Wang,aShumei Chen,a* Yao Kang,bZhi-Gang Gub* and Jian Zhangb College of Chemistry, Fuzhou Chiral Porous Metacrystals Employing Liquid-Phase Epitaxy Helical carbon tubes derived from epitaxial Cu MOF coating Helical carbon tubes derived from epitaxial Cu-MOF coating on textile for enhanced supercapacitor performance. Dalton Transactions 2018, 47 (16), 5558-5563. DOI 10.1039/C8DT00761F. Wei-Hui Fang, Lei Zhang, Jian Zhang.

Cited by 12Publish Year 2018Author De-Jing Li, De-Jing Li, BBNg Lei, Yan-Yue Wang, Shumei Chen, Yao Kang, Zhi-Gang Gu, Jian ZhangHelical Carbon Tubes Derived from Epitaxial Cu-MOF

Helical Carbon Tubes Derived from Epitaxial Cu-MOF Coating on Textile for Enhanced Supercapacitor PerformanceControllable Synthesis of Metal-Organic Frameworks and Helical carbon tubes derived from epitaxial Cu MOF coating A detailed summary of controlled synthesis of metal-organic frameworks (MOFs) and their hierarchical assemblies is provided. Synthetic methods to tune the sizes and morphologies of MOF nanocrystals, and their programmed assembly into superstructures are discussed. Strategies to integrate multiple components into MOF hierarchical structures through one-pot or post-synthetic approaches are Helical carbon tubes derived from epitaxial Cu MOF coating Controllable Synthesis of Metal-Organic Frameworks and Helical carbon tubes derived from epitaxial Cu MOF coating A detailed summary of controlled synthesis of metal-organic frameworks (MOFs) and their hierarchical assemblies is provided. Synthetic methods to tune the sizes and morphologies of MOF nanocrystals, and their programmed assembly into superstructures are discussed. Strategies to integrate multiple components into MOF hierarchical structures through one-pot or post-synthetic approaches are Helical carbon tubes derived from epitaxial Cu MOF coating

Controlling the alignment of 1D nanochannel arrays in Helical carbon tubes derived from epitaxial Cu MOF coating

Recently, we expanded the scope of this area by developing a novel heteroepitaxial growth method for fabricating MOF films with crystallographic orientation, along all three axes, at the centimetre-scale. 33,34 In this case, Cu(OH) 2 nanobelts were used as a sacrificial template for the epitaxial growth of 2D Cu 2 (BDC) 2 and 3D Cu 2 (BDC) 2 Helical carbon tubes derived from epitaxial Cu MOF coating Crystals Free Full-Text Luminescent MetalOrganic Helical carbon tubes derived from epitaxial Cu MOF coating Eddaoudi et al. implemented the spin-coating method to construct various MOF thin films, ranging in thickness from a few micrometers down to the nanometer scale including Cu 2 (bdc) 2 x H 2 O, Zn 2 (bdc) 2 x H 2 O, HKUST-1, and ZIF-8 . Zhang et al. synthesize a continuous and smooth lanthanide MOF films, Eu 1-x Tb x-MOF, via spin-coating Helical carbon tubes derived from epitaxial Cu MOF coating De-Jing Li's research works Fuzhou University, Fuzhou Helical carbon tubes derived from epitaxial Cu MOF coating The design and development on the supercapacitors containing metal oxides and carbon materials is very important for energy-storage devices in laboratory and industry. In this work, we report Helical carbon tubes derived from epitaxial Cu MOF coating

Engineering of functional materials with chemical coating Helical carbon tubes derived from epitaxial Cu MOF coating

The reinforcing phase is used to refine the microstructure and impart hardness to the coating. The functionally graded Cu-SiC coating possesses high hardness (3.4 GPa), and low surface roughness (2.9m) without a significant change in the electrical resistivity (4.1/m) as compared to bulk Cu Fabrication of metal-organic [email protected] aerogels Helical carbon tubes derived from epitaxial Cu MOF coating Feb 01, 2019H. Chen, Z.-G. Gu, S. Mirza, S.-H. Zhang, J. ZhangHollow Cu-TiO 2 /C nanospheres derived from a Ti precursor encapsulated MOF coating for efficient photocatalytic hydrogen evolution Journal of Materials Chemistry A, 6 (2018), pp. 7175-7181Graphene Synthesis, Properties, And Applications Cheap TubesBy pyrolyzing the material on the substrate, carbon clusters are prevented from forming. Due to the amount of energy required to break the carbon bonds (C-C = 347 kjmol-1, C=C = 614 kjmol-1, CC = 839 kjmol-1, C-H = 413 kjmol-1), a high heat is required, and therefore a

Helical carbon tubes derived from epitaxial Cu-MOF coating Helical carbon tubes derived from epitaxial Cu MOF coating

Apr 24, 2018Helical carbon tubes derived from epitaxial Cu-MOF coating on textile for enhanced supercapacitor performance. Li DJ (1), Lei S , Wang YY , Chen S , Kang Y , Gu ZG , Zhang J . Author information (1)College of Chemistry, Fuzhou University, Fuzhou, Fujian 350108, PR China. [email protected]Helical carbon tubes derived from epitaxial Cu-MOF coating Helical carbon tubes derived from epitaxial Cu MOF coating The design and development of the supercapacitors containing metal oxides and carbon materials is very important for energy-storage devices in laboratory and industry. In this study, we report a helical carbon tube material derived from epitaxial Cu-MOF coating on textile by calcination treatment.Helical carbon tubes derived from epitaxial Cu-MOF coating Helical carbon tubes derived from epitaxial Cu MOF coating Translate this pageHelical carbon tubes derived from epitaxial Cu-MOF coating on textile for enhanced supercapacitor performance. A new helical carbon tube material has been prepared from epitaxial Cu-MOF coating on textile by calcination treatment.

Hierarchically porous metalorganic frameworks synthetic Helical carbon tubes derived from epitaxial Cu MOF coating

Another HP-MOF named PCN-777 was also reported by the same group; this was constructed by TATB ligands and [Zr 6] clusters [46].Unlike the D 3d-symmetric Zr 6 unit in PCN-224, the positions of the carboxylates and terminal OH/H 2 O were switched to form an antiprismatic connection mode in PCN-777. The overall structure of PCN-777 is built by sharing the vertexes of the supertetrahedra, which Helical carbon tubes derived from epitaxial Cu MOF coating MOFTemplated Synthesis of Ultrasmall Photoluminescent Helical carbon tubes derived from epitaxial Cu MOF coating De-Jing Li, BBNg Lei, Yan-Yue Wang, Shumei Chen, Yao Kang, Zhi-Gang Gu, Jian Zhang, Helical carbon tubes derived from epitaxial Cu-MOF coating on textile for enhanced supercapacitor performance, Dalton Transactions, 10.1039/C8DT00761F, 47, 16, (5558-5563), (2018).Metal-Organic-Framework Composites as Proficient Oct 05, 2019Metal-Organic-Framework Composites as Proficient Cathodes for Supercapacitor Applications Wei Ni, Lingying Shi. Metal-organic frameworks (MOFs) have garnered significant interest over the past two decades for next-generation electrochemical energy storage applications, especially for supercapacitors that combine the two features of high energy density of batteries and high power

MetalOrganic Frameworks (MOFs) and MOF-Derived

As modern society develops, the need for clean energy becomes increasingly important on a global scale. Because of this, the exploration of novel materials for energy storage and utilization is urgently needed to achieve low-carbon economy and sustainable development. Among these novel materials, metalorganic frameworks (MOFs), a class of porous materials, have gained increasing Morphology-Dependent Performance of CuO Anodes via Jan 07, 2014Helical carbon tubes derived from epitaxial Cu-MOF coating on textile for enhanced supercapacitor performance. Dalton Transactions 2018, 47 (16), 5558-5563. DOI 10.1039/C8DT00761F. Min Zhang, Jingjing Ma, Yidan Zhang, Leidan Lu, Yaqin Chai, Ruo Yuan, Xia Yang.Nanotechnology, Volume 31, Number 19, 8 May 2020 - May 08, 2020In addition, the deposition of Cu and GNS increased in the coatings along with the current density increasing. Four-point-probe test confirmed that the resistivity of Cu coatings (0.08 m mm) and Cu-GNS composite coatings (0.05 m mm) was in the same order of magnitude as pure copper (0.0175 m mm) at high current density.

Nanotechnology, Volume 31, Number 19, 8 May 2020 -

May 08, 2020In addition, the deposition of Cu and GNS increased in the coatings along with the current density increasing. Four-point-probe test confirmed that the resistivity of Cu coatings (0.08 m mm) and Cu-GNS composite coatings (0.05 m mm) was in the same order of magnitude as pure copper (0.0175 m mm) at high current density.Physical Properties of Carbon NanotubesInner tube growth and electronic properties of metallicity-sorted nickelocene-filled semiconducting single-walled carbon nanotubes M. V. Kharlamova, C. Kramberger, M. Sauer, K. Yanagi and T. Saito et al.Polycarbonate Microchip Containing CuBTC-Monopol Monolith Helical carbon tubes derived from epitaxial Cu MOF coating The organic monolith formed underwent coating using CuBTC nanocrystals with ethanolic solution of H 3 BTC (10 mM) and ethanolic solution Cu(CH 3 COO) 2 (10 mM). The resultant monolith (CuBTC-monopol) yields a homogeneous blue colored material showing homogenously distributed copper in the whole monolith, Figure 2(a).For generation of pure crystalline materials, the as-prepared monoliths in Helical carbon tubes derived from epitaxial Cu MOF coating

Processes Free Full-Text MetalOrganic Framework Thin Helical carbon tubes derived from epitaxial Cu MOF coating

The MOF-on-MOF fabrication was completed by 60 LBL cycles of first MOF-TF and then 60 LBL cycles of the second MOF-TF. In the end, highly oriented Zn-MOF-on-Cu-MOF hybridized TFs were obtained on SAM-based substrates, showing precisely controlled thicknesses, a result of the LBL deposition.Rare Metals Online first articlesNov 25, 2020A review of helical carbon materials structure, synthesis and applications Authors (first, second and last of 6) Helical carbon tubes derived from epitaxial Cu MOF coating Sulfur dioxide sensing properties of MOF-derived ZnFe 2 O 4 functionalized with reduced graphene oxide at room temperature Helical carbon tubes derived from epitaxial Cu MOF coating Spontaneous positive exchange bias effect in SrFeO 3x /SrCoO 3x epitaxial bilayer Authors (first Helical carbon tubes derived from epitaxial Cu MOF coating Recent progress on MOFderived carbon materials for MOFderived carbon materials with hollow structure have attracted lots of attention from relevant researchers owing to the special cavity structure, which enables carbon material to effectively store substances and shorten the transmission path. 107-111 Currently, there are two main methods of synthesizing hollow MOFderived materials Helical carbon tubes derived from epitaxial Cu MOF coating

Recent progress on MOFderived carbon materials for energy Helical carbon tubes derived from epitaxial Cu MOF coating

MOFderived carbon materials with hollow structure have attracted lots of attention from relevant researchers owing to the special cavity structure, which enables carbon material to effectively store substances and shorten the transmission path. 107-111 Currently, there are two main methods of synthesizing hollow MOFderived materials Helical carbon tubes derived from epitaxial Cu MOF coating Solutions for the problems of siliconcarbon anode Helical carbon tubes derived from epitaxial Cu MOF coating Electrodes made with Si nanowires coated by pyrolysed carbon shells exhibited high capacities of over 2000 mAh g 1 for 100 cycles when cycled slowly at 0.1 C and over 1200 mAh g 1 when cycled quickly at 1.0 C. Uniform and complete carbon coatings were also found to prevent complete nanowire expansion needed for full lithiation of the Helical carbon tubes derived from epitaxial Cu MOF coating Some results are removed in response to a notice of local law requirement. For more information, please see here.

Some results are removed in response to a notice of local law requirement. For more information, please see here.Helical carbon tubes derived from epitaxial Cu-MOF coating Helical carbon tubes derived from epitaxial Cu MOF coating

Translate this pageThe design and development of the supercapacitors containing metal oxides and carbon materials is very important for energy-storage devices in laboratory and industry. In this study, we report a helical carbon tube material derived from epitaxial Cu-MOF coating on textile by calcination treatment. The electrochemical performance obtained from the cyclic voltammetry (CV), galvanostatic charge Helical carbon tubes derived from epitaxial Cu MOF coating Some results are removed in response to a notice of local law requirement. For more information, please see here.Helical carbon tubes derived from epitaxial Cu-MOF coating Helical carbon tubes derived from epitaxial Cu MOF coating Translate this pageThe design and development of the supercapacitors containing metal oxides and carbon materials is very important for energy-storage devices in laboratory and industry. In this study, we report a helical carbon tube material derived from epitaxial Cu-MOF coating on textile by calcination treatment. The electrochemical performance obtained from the cyclic voltammetry (CV), galvanostatic charge Helical carbon tubes derived from epitaxial Cu MOF coating Synthesis, Properties, and Applications of Low-Dimensional Helical carbon tubes derived from epitaxial Cu MOF coating In recent years, many theoretical and experimental studies have been carried out to develop one of the most interesting aspects of the science and nanotechnology which is called carbon-related nanomaterials. The goal of this paper is to provide a review of some of the most exciting and important developments in the synthesis, properties, and applications of low-dimensional carbon nanomaterials.

The Texture of Catalytically Grown Coil-Shaped Carbon Helical carbon tubes derived from epitaxial Cu MOF coating

142 EUROPHYSICS LETTERS Fig. 1. - Differently shaped carbon fibres produced by thermal cracking of acetylene on a finely divided cobalt catalyst. Inset magnified part of a helix exhibiting polygonization. particles. Of the several metals (Fe, Ni, Cu, CO) investigated in this study, we found that CO gave the smallest and best graphitized tubules.The controlled synthesis of complex hollow nanostructures Helical carbon tubes derived from epitaxial Cu MOF coating Apr 10, 20191. Introduction. Hollow nanostructures with controlled chemical composition and morphology have emerged as an important class of materials [14].These nanostructures can be regarded as particulate materials with interior cavities and uniform morphologies, displaying well-defined boundaries [1,36].Because of the existence of cavities, the surface area in these particles is The controlled synthesis of complex hollow nanostructures Helical carbon tubes derived from epitaxial Cu MOF coating Apr 10, 20191. Introduction. Hollow nanostructures with controlled chemical composition and morphology have emerged as an important class of materials [14].These nanostructures can be regarded as particulate materials with interior cavities and uniform morphologies, displaying well-defined boundaries [1,36].Because of the existence of cavities, the surface area in these particles is

US20150118411A1 - Method of producing a graphene coating

US20150118411A1 US14/521,657 US201414521657A US2015118411A1 US 20150118411 A1 US20150118411 A1 US 20150118411A1 US 201414521657 A US201414521657 A US 201414521657A US 2015118411 A1 US2015118411 A1 US 2015118411A1 Authority US United States Prior art keywords stainless steel carbon precursor graphene heated carbon Prior art date 2013-10-28 Legal status US20150118411A1 - Method of producing a graphene coating US20150118411A1 US14/521,657 US201414521657A US2015118411A1 US 20150118411 A1 US20150118411 A1 US 20150118411A1 US 201414521657 A US201414521657 A US 201414521657A US 2015118411 A1 US2015118411 A1 US 2015118411A1 Authority US United States Prior art keywords stainless steel carbon precursor graphene heated carbon Prior art date 2013-10-28 Legal status US7431965B2 - Continuous growth of single-wall carbon Helical carbon tubes derived from epitaxial Cu MOF coating The invention relates to a chemical vapor deposition process for the continuous growth of a carbon single-wall nanotube where a carbon-containing gas composition is contacted with a porous membrane and decomposed in the presence of a catalyst to grow single-wall carbon nanotube material. A pressure differential exists across the porous membrane such that the pressure on one side of the Helical carbon tubes derived from epitaxial Cu MOF coating

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