RuO 2 ‚xH 2 O nanoparticulates in different crystal sizes with various water contents were prepared via a hydrothermal synthesis route, successfully demonstrating the independent control of crystal size and water content of RuO 2 ‚xH 2 O. The crystalline and hydrous nature of hydrothermally derived RuO 2 ‚xH 2 O particulates not only reduces the proton diffusion resistance but also enhances the electronic conductivity for the redox transitions of active species. Novel and unique properties of hydrothermally derived RuO 2 ‚ xH 2 O, i.e., effective inhibition of crystallite coalescence upon annealing, relatively high thermal stability, and maintenance of the original nanostructure, are attributable to the coalescence barrier of RuO 2 ‚xH 2 O crystallites due to the lattice energy. Maintaining/fine-tuning the original nanostructure of annealed RuO 2 ‚ xH 2 O crystallites with high mesoporosity favors the penetration of electrolytes into the whole oxide matrix. This effect of not only reducing the proton diffusion resistance but also improving the electron pathways promotes the utilization of RuO 2 ‚xH 2 O in supercapacitor applications.
Nanoparticles of the title compound with different crystal sizes and various water contents are hydrothermally synthesized from an aqueous solution of RuCl3 (autoclave, 180°C). The samples are characterized by TEM, powder XRD, Raman spectroscopy, and cyclic voltammetry. The crystalline, hydrous nature of hydrothermally derived RuO 2 ·xH 2 O not only reduces the proton diffusion resistance but also enhances the electronic conductivity for supercapacitor applications.
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