Herein, a surfactant- and additive-free strategy is developed for morphology-controllable synthesis of cobalt pyrophosphate (CoPPi) nanostructures by tuning the concentration and ratio of the precursor solutions of Na4 P2 O7 and Co(CH3 COO)2 . A series of CoPPi nanostructures including nanowires, nanobelts, nanoleaves, and nanorhombuses are prepared and exhibit very promising electrocatalytic properties toward the oxygen evolution reaction (OER). Acting as both reactant and pseudo-surfactant, the existence of excess Na4 P2 O7 is essential to synthesize CoPPi nanostructures for unique morphologies. Among all CoPPi nanostructures, the CoPPi nanowires catalyst renders the best catalytic performance for OER in alkaline media, achieving a low Ta...
Reported herein is elucidation of a novel Co-based oxygen evolution catalyst generated in situ from ...
The industrial application of water splitting for oxygen evolution requires low cost, high performan...
Low temperature fuel cells are clean, effective alternative fuel conversion technology. Oxygen reduc...
Herein, a surfactant- and additive-free strategy is developed for morphology-controllable synthesis ...
Compositional interplay of two different cobalt phosphates (Co(H2PO4)(2); Co-DP and Co(PO3)(2); Co-M...
Due to unique structural porosity, low-cost, and good catalytic activity, oxygen evolution reactions...
Electrochemical water splitting into hydrogen and oxygen is a promising technology for sustainable e...
We demonstrated a high-yield and easily reproducible synthesis of a highly active oxygen evolution r...
Needle-shaped narrow hexagonal phase 1D nanostructures of dicobalt phosphide (Co<sub>2</sub>P) are r...
Electrochemical water oxidation is one of the thrust areas of research today in solving energy and e...
Highly efficient non-noble materials for water splitting are essential for renewable energy applicat...
Transition metal phosphide electrocatalysts have shown tremendous potential for oxygen evolution rea...
Herein, mesoporous cobalt oxides with nanowire morphology were size-selectively synthesized via nano...
Electrochemical water splitting in alkaline solution plays a growing role in alternative energy devi...
The development of high current density anodes for the oxygen evolution reaction (OER) is fundamenta...
Reported herein is elucidation of a novel Co-based oxygen evolution catalyst generated in situ from ...
The industrial application of water splitting for oxygen evolution requires low cost, high performan...
Low temperature fuel cells are clean, effective alternative fuel conversion technology. Oxygen reduc...
Herein, a surfactant- and additive-free strategy is developed for morphology-controllable synthesis ...
Compositional interplay of two different cobalt phosphates (Co(H2PO4)(2); Co-DP and Co(PO3)(2); Co-M...
Due to unique structural porosity, low-cost, and good catalytic activity, oxygen evolution reactions...
Electrochemical water splitting into hydrogen and oxygen is a promising technology for sustainable e...
We demonstrated a high-yield and easily reproducible synthesis of a highly active oxygen evolution r...
Needle-shaped narrow hexagonal phase 1D nanostructures of dicobalt phosphide (Co<sub>2</sub>P) are r...
Electrochemical water oxidation is one of the thrust areas of research today in solving energy and e...
Highly efficient non-noble materials for water splitting are essential for renewable energy applicat...
Transition metal phosphide electrocatalysts have shown tremendous potential for oxygen evolution rea...
Herein, mesoporous cobalt oxides with nanowire morphology were size-selectively synthesized via nano...
Electrochemical water splitting in alkaline solution plays a growing role in alternative energy devi...
The development of high current density anodes for the oxygen evolution reaction (OER) is fundamenta...
Reported herein is elucidation of a novel Co-based oxygen evolution catalyst generated in situ from ...
The industrial application of water splitting for oxygen evolution requires low cost, high performan...
Low temperature fuel cells are clean, effective alternative fuel conversion technology. Oxygen reduc...