2023
DOI: 10.1007/s12274-023-5965-7
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Stability of dimensionally stable anode for chlorine evolution reaction

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Cited by 22 publications
(4 citation statements)
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“…1c ) shows that the electrodeposition of NiFeO x H y is well covered on B-TiO x and exhibits a morphology that is like the typical morphology of a DSA electrode. 21 The overall morphology of NiFeO x H y catalytic films consists of larger sheet flowers and fine nanosheets, both of which are consistent with the intrinsic sheet structure of NiFeO x H y . 26,27 However, the NiFeO x H y grown on fresh Ti shows a morphology of a woolly ball that is formed by the interlocking of numerous sheets, as clearly observed in Fig.…”
Section: Resultssupporting
confidence: 67%
See 1 more Smart Citation
“…1c ) shows that the electrodeposition of NiFeO x H y is well covered on B-TiO x and exhibits a morphology that is like the typical morphology of a DSA electrode. 21 The overall morphology of NiFeO x H y catalytic films consists of larger sheet flowers and fine nanosheets, both of which are consistent with the intrinsic sheet structure of NiFeO x H y . 26,27 However, the NiFeO x H y grown on fresh Ti shows a morphology of a woolly ball that is formed by the interlocking of numerous sheets, as clearly observed in Fig.…”
Section: Resultssupporting
confidence: 67%
“…[18][19][20] Thanks to the high-temperature treatment, a higher electrical conductivity of RuIrTiO x solid solution is obtained by sintering Ru or Ir with Ti to form an intermediate layer, which rmly bridges the Ti substrate and the catalytic layer in DSAs. 21 However, the crystal structure of NiFeO x H y is particularly sensitive to sintering temperature; it can be converted to a more inert oxide structure at only 300 °C, 10 so loading NiFeO x H y on substrates is almost impossible to treat with commercial DSAs. Therefore, surface modication of the Ti substrate is necessary to enable the NiFeO x H y catalytic layer to adhere robustly to the smooth metal Ti surface and is signicant for high current density operation.…”
Section: Introductionmentioning
confidence: 99%
“…Conversely, with 10% platinum, the morphology undergoes a change, presenting as the most compact and recovered surface with the presence of shallow cracks. Initially, the morphology of oxide anodes is expected to influence the chlorine catalytic reaction significantly [21]. The presence of cracks and pores in the coatings introduces external and internal surfaces, which behave in a distinct manner.…”
Section: Physical and Electrochemical Characterization Of Manufacture...mentioning
confidence: 99%
“…66 Moreover, the materials used for the electrode and electrolyzer with the chlorine species should be optimized because of the harsh corrosion effect by the media. 68 The second category of alternative anodic chemistry is the production of value-added chemicals (Fig. 2c), or upgrading reactions (URs).…”
Section: Classification Of the Alternative Anodic Chemistry And Basic...mentioning
confidence: 99%