2017
DOI: 10.1002/celc.201700873
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Bifunctional Electrocatalytic Behavior of Sodium Cobalt Phosphates in Alkaline Solution

Abstract: Noble-metal-free, bifunctional catalysts are essential to develop high-performance, cost-effective water-splitting systems. The current work explores the bifunctional electrocatalytic behavior of two sodium cobalt phosphate systems, namely, NaCoPO 4 and Na 2 CoP 2 O 7 , prepared by solution combustion synthesis (SCS) for the first time. Formation of phase-pure orthorhombic maricite NaCoPO 4 (space group: Pnma) and orthorhombic Na 2 CoP 2 O 7 (space group: Pna2 1 ) was confirmed by Rietveld refinement. The elec… Show more

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Cited by 48 publications
(43 citation statements)
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“…The superior ORR activity of NaFePO 4 could be attributed to the stabilization of active (Fe II ) centers by the phosphate framework, which thereby facilitates oxygen binding with the (Fe II ) centers . In addition, the conductive carbon coating wrapped around the particles and orthorhombic crystal structure of maricite NaFePO 4 favors its ORR activity compared with that of monoclinic KFePO 4 …”
Section: Resultsmentioning
confidence: 99%
“…The superior ORR activity of NaFePO 4 could be attributed to the stabilization of active (Fe II ) centers by the phosphate framework, which thereby facilitates oxygen binding with the (Fe II ) centers . In addition, the conductive carbon coating wrapped around the particles and orthorhombic crystal structure of maricite NaFePO 4 favors its ORR activity compared with that of monoclinic KFePO 4 …”
Section: Resultsmentioning
confidence: 99%
“…The corresponding pore size distribution curves are shown for NCoM-Cb-Ar and NCoM-Cb-Air in Figure S10. [11] The drop in OER current density at 1.758 V for NCoM-SS-Ar (18 %) catalyst during the stability test was smaller than that of NCoM-SS-Air (73 %) (Figures 4 d and 4c, respectively). [28] The electrocatalytic activity of cobalt-based metaphosphates is shown in Figure 3.…”
mentioning
confidence: 88%
“…[3] As a result of their excellent electrochemical performance and versatile structure, phosphate-based polyanionic materials have offered a range of promising electrodes for Li-ion batteries (LIBs) and Na-ion batteries (SIBs). These electrocatalysts are based on abundant 3d transition-metal ( T M) incorporated inside the lattice as oxides, [6] hydroxides, [7] perovskites, [8] phosphides, [9] chalcogenides, [10] phosphates, [11] molecular compounds, [12] and as oxides decorated on graphene. These electrocatalysts are based on abundant 3d transition-metal ( T M) incorporated inside the lattice as oxides, [6] hydroxides, [7] perovskites, [8] phosphides, [9] chalcogenides, [10] phosphates, [11] molecular compounds, [12] and as oxides decorated on graphene.…”
mentioning
confidence: 99%
“…It is still a challenge to explore a facile and efficient way in the manufacture of catalyst with superior water oxidation performance. New techniques are carried out to provide more synthetic methods for catalysts such as in situ surface derivation, electrochemical topotactic conversion or oxidative polarization, solid‐state method, sol‐gel method, solution combustion synthesis (SCS) and chemical vapor deposition (CVD) and microwave‐assisted method ,. For example, CCH@Co−Pi NA/Ti was obtained via in situ electrochemical surface derivation used Co(CO 3 ) 0.5 (OH) ⋅ 0.11H 2 O nanoarray on Ti mesh (CCH NA/Ti) as the precursor .…”
Section: Syntheses Of Phosphate‐based Electrocatalystsmentioning
confidence: 99%