2017
DOI: 10.1039/c7ra05634f
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Efficient synthesis of nitrogen-doped carbon with flower-like tungsten nitride nanosheets for improving the oxygen reduction reactions

Abstract: A novel three-dimensional (3D) electrocatalyst composite was successfully prepared through a facile hydrothermal method, consisting of tungsten nitride nanosheets with flower-like morphology (WN FNs) and nitrogen-doped carbon black (N-C). Highly crystalline WN FNs were observed to be uniformly distributed in N-C, and remarkably promoted the catalytic activities toward oxygen reduction reaction (ORR) of the N-C. Moreover, the electrochemical results proved that, WN FNs/N-C composite shows a significantly hig… Show more

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Cited by 13 publications
(4 citation statements)
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“…The major peaks at 2θ of 23.5° and 33.3° are attributed to the characteristic peaks of WO 3 particles that obtained from the tungsten and oxygen species of PTA. The produced material is composed of WO 3 phase when the pyrolysis temperature was increased up to 700 °C; however, another phase W 2 N was observed after the pyrolysis at 800 °C, probably via the phase transformation of WO 3 into W 2 N. The phase transformation to W 2 N was reported to occur usually in the presence of additional NH 3 flow; however, in this study the pANI itself probably acted as the nitrogen source for the formation of W 2 N within pDCs. Further increase of the pyrolysis temperature (up to 900 °C) results in another phase transformation (partial) of W 2 N into metallic tungsten, which was confirmed by the appearance of new XRD peak at 2θ of 40.2°.…”
Section: Resultsmentioning
confidence: 57%
“…The major peaks at 2θ of 23.5° and 33.3° are attributed to the characteristic peaks of WO 3 particles that obtained from the tungsten and oxygen species of PTA. The produced material is composed of WO 3 phase when the pyrolysis temperature was increased up to 700 °C; however, another phase W 2 N was observed after the pyrolysis at 800 °C, probably via the phase transformation of WO 3 into W 2 N. The phase transformation to W 2 N was reported to occur usually in the presence of additional NH 3 flow; however, in this study the pANI itself probably acted as the nitrogen source for the formation of W 2 N within pDCs. Further increase of the pyrolysis temperature (up to 900 °C) results in another phase transformation (partial) of W 2 N into metallic tungsten, which was confirmed by the appearance of new XRD peak at 2θ of 40.2°.…”
Section: Resultsmentioning
confidence: 57%
“…120,121 In addition to simple 1D and 2D structures, the 3D structure has a large specific surface area, which can enhance the electrocatalytic performance of the electrocatalyst, and further improve the activity and stability of the ORR. 122 Zhang et al 123 successfully prepared a flower-like 3D electrocatalyst composite, WN–FNs/N–C, by a hydrothermal method. Thanks to its unique 3D structure and the increase in the number of active sites, it provides excellent catalytic stability and activity for the ORR.…”
Section: Modification Methods Of W/mo-based Electrocatalystsmentioning
confidence: 99%
“…4. Flower like tungsten nitride with nitrogen doped carbon for ORR [174] (Reproduced with permission). [167,168] .…”
Section: Functionalized Graphene/heteroatoms Doped Graphene Polymer Ementioning
confidence: 99%
“…Recently, we reported NiFe 2 O 4 nanoparticles supported on nitrogen-doped graphene (N-Gr) for enhancing ORR performance in PEMFCs relative to pure NiFe 2 O 4 nanoparticles and alone N-Gr [173] . Zhang et al [174] synthesize flower-like tungsten nitride with nitrogen doped carbon to enhanced ORR performance ( Fig. 4 ).…”
Section: Functionalized Graphene/heteroatoms Doped Graphene Polymer Ementioning
confidence: 99%