2016
DOI: 10.1002/ange.201606313
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Metallic Nickel Hydroxide Nanosheets Give Superior Electrocatalytic Oxidation of Urea for Fuel Cells

Abstract: The direct urea fuel cell (DUFC) is an important but challenging renewable energy production technology,i to ffers great promise for energy-sustainable developments and mitigating water contamination. However,DUFCs still suffer from the sluggish kinetics of the urea oxidation reaction (UOR) owingtoa6e À transfer process,which poses asevere hindrance to their practical use.Herein, taking b-Ni(OH) 2 nanosheets as the proof-of-concept study,wedemonstrated asurface-chemistry strategy to achieve metallic Ni(OH) 2 n… Show more

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Cited by 284 publications
(49 citation statements)
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“…There is no obvious distinction between CoP–DC and CoP bulk, meaning that the existence of the standard CoP framework in both samples. As displayed in the inset of Figure c, a shift of absorption threshold to high energy is observed after the CoP coupled with defective carbon, indicating the electron transfer from the CoP core to defective carbon shell . This result is also consistent with XPS, Co L‐edge, and C K‐edge XANES spectra as discussed above.…”
supporting
confidence: 86%
“…There is no obvious distinction between CoP–DC and CoP bulk, meaning that the existence of the standard CoP framework in both samples. As displayed in the inset of Figure c, a shift of absorption threshold to high energy is observed after the CoP coupled with defective carbon, indicating the electron transfer from the CoP core to defective carbon shell . This result is also consistent with XPS, Co L‐edge, and C K‐edge XANES spectra as discussed above.…”
supporting
confidence: 86%
“…Urea electrolysis occurred with current densities of 10 mA cm À2 at 1.44 V and 100 mA cm À2 at 1.68 V (Figure S21C), far exceeding the activity of Ni(OH) 2 and also better than the recently reported catalysts. 64,65 The urea electrolysis device also exhibited excellent stability working at 20 mA cm À2 for more than 20 hr (Figure S21D). Moreover, the as-developed approach was applicable to prepare ultrathin NiFe layered double hydroxide with an enhanced OER performance (Figures S22 and S23).…”
Section: Discussionmentioning
confidence: 98%
“…4,6 Compared to OER, UOR suffers from even more sluggish kinetics because of the complicated 6etransfer process, which needs high performance catalysts to decrease the overpotential to achieve an e cient device. 2,[9][10][11] Initially, some noble metal catalysts such as Ti-Pt, Ti-Pt-Ir, and Ru were used to enhance the activity, however due to their scarcity they are costly. 2 However, the catalytic performance of the recently developed non-noble metal UOR catalysts based on Ni hydroxides, oxides, sul des, and phosphides, etc, does not satisfy requirements of practical applications due to the high overpotential, low current density and inadequate stability.…”
Section: Introductionmentioning
confidence: 99%