2016
DOI: 10.1038/srep20704
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Enhancing capacitance behaviour of CoOOH nanostructures using transition metal dopants by ambient oxidation

Abstract: Cobalt hydrate and doped binary Co0.9M0.1OOH (M = Ni, Mn, Fe) nanorings of 100–300 nm were fabricated in solution through a facile ambient oxidation method. A transformation from Co0.9Ni0.1(OH)2 nanodiscs to hollow Co0.9Ni0.1OOH nanorings was observed with prolonged reaction time. Core-shell nanodiscs have elemental segregation with a Co(OH)2 core and Ni(OH)2 shell. Co0.9Ni0.1OOH nanorings displayed a higher electrochemical capacitance than Mn and Fe doped nanorings materials or materials with disc-like geomet… Show more

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Cited by 24 publications
(16 citation statements)
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“…2a 2 and CoO(OH) has also previously been reported. 14 In addition, a ratio between Co : S was calculated by wavelength dispersive X-ray uorescence (WDXRF) supporting the XRD results. Generally, the as-prepared a-Co(OH) 2 lm can be obtained by the electrodeposition technique.…”
supporting
confidence: 58%
See 1 more Smart Citation
“…2a 2 and CoO(OH) has also previously been reported. 14 In addition, a ratio between Co : S was calculated by wavelength dispersive X-ray uorescence (WDXRF) supporting the XRD results. Generally, the as-prepared a-Co(OH) 2 lm can be obtained by the electrodeposition technique.…”
supporting
confidence: 58%
“…[17][18][19] The Co(OH) 2 can be converted into CoO(OH) during the oxidation process with the reduction of d-spacing value and the shi of the peak of (001) plane of Co(OH) 2 to (002) plane of CoO(OH). 14,16,20 The CoO(OH) is a hexagonal crystal phase of space group R3m with lattice parameters of a ¼ b ¼ 0.3183 nm, and c ¼ 1.315 nm. 15,16 The caxis of CoO(OH) clearly expands and disorders when compared with the crystal structure of Co(OH) 2 .…”
mentioning
confidence: 99%
“…supercapacitor [18][19][20] and precursor for electrode materials [21,22] in industry. It turns out that CoOOH has good electronic transmission rate.…”
Section: Introductionmentioning
confidence: 99%
“…In the past few decades, materials with delafossite‐type structure have attracted a great deal of interest due to their potential applications in optoelectronic, electronic, dye sensitized solar cell, rechargeable battery electrodes, catalysis in hydrogen evolution, electrochemistry, and thermoelectricity . Delafossites are p‐type wide band gap layered structural materials, with general chemical configurations of ABO 2 and are characterised by the edge‐connected BO 2 octahedra that are stacked along the c‐axis.…”
Section: Introductionmentioning
confidence: 99%