Diankai Li scite author profile

In the work, a novel lysine-assisted hydrothermal process is first developed to produce urchin-like ordered Co(OH) 2 arrays, which are assembled from mesoporous Co(OH) 2 nanowires. The synergistic contributions from lysine and Cl À ions to the formation of the unique arrays was also tentatively proposed. Electrochemical results show that the unique urchin-like ordered Co(OH) 2 arrays show the ability to deliver large specific capacitance and good electrochemical stability at large current densities, which is reasonably ascribed to their ordered microstructure, hierarchical (meso-and macro-) porosity and good electronic conductivity. Moreover, the method we proposed here provides a universal green chemistry approach to large-scale production of Co(OH) 2 and even other metal hydroxides oriented arrays with hierarchical porosity for fast energy storage.

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Electrochemically induced transformation of NiS nanoparticles into Ni(OH)2 in KOH aqueous solution toward electrochemical capacitors

Hou

Cheng

et al. 2011

Electrochimica Acta

118

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Facile interfacial synthesis of flower-like hierarchical a-MnO2 sub-microspherical superstructures constructed by two-dimension mesoporous nanosheets and their application in electrochemical capacitors

et al. 2011

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Mesoporous N-containing carbon nanosheets towards high-performance electrochemical capacitors

Hou

Lian

et al. 2013

Carbon

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Large-scale Co3O4 nanoparticles growing on nickel sheets via a one-step strategy and their ultra-highly reversible redox reaction toward supercapacitors

et al. 2011

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Diankai Li

Lysine-assisted hydrothermal synthesis of urchin-like ordered arrays of mesoporous Co(OH)2 nanowires and their application in electrochemical capacitors

Electrochemically induced transformation of NiS nanoparticles into Ni(OH)2 in KOH aqueous solution toward electrochemical capacitors

Facile interfacial synthesis of flower-like hierarchical a-MnO2 sub-microspherical superstructures constructed by two-dimension mesoporous nanosheets and their application in electrochemical capacitors

Mesoporous N-containing carbon nanosheets towards high-performance electrochemical capacitors

Large-scale Co3O4 nanoparticles growing on nickel sheets via a one-step strategy and their ultra-highly reversible redox reaction toward supercapacitors

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