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Single-site Pt-doped RuO2 hollow nanospheres with interstitial C for high-performance acidic overall water splitting

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Single-site Pt-doped RuO2 hollow nanospheres with interstitial C for high-performance acidic overall water splitting
IrOx·nH2O with lattice water–assisted oxygen exchange for high
Single-site Pt-doped RuO2 hollow nanospheres with interstitial C for high-performance acidic overall water splitting
Enabling Ultrafine Ru Nanoparticles with Tunable Electronic
Single-site Pt-doped RuO2 hollow nanospheres with interstitial C for high-performance acidic overall water splitting
Single-Atom Cr–N4 Sites with High Oxophilicity Interfaced with Pt
Single-site Pt-doped RuO2 hollow nanospheres with interstitial C for high-performance acidic overall water splitting
Construction of Zn-doped RuO2 nanowires for efficient and stable
Single-site Pt-doped RuO2 hollow nanospheres with interstitial C for high-performance acidic overall water splitting
A Review on Advanced FeNi-Based Catalysts for Water Splitting
Single-site Pt-doped RuO2 hollow nanospheres with interstitial C for high-performance acidic overall water splitting
Customized reaction route for ruthenium oxide towards stabilized
Single-site Pt-doped RuO2 hollow nanospheres with interstitial C for high-performance acidic overall water splitting
Various Material Development Strategies for Suitable Catalysts of
Single-site Pt-doped RuO2 hollow nanospheres with interstitial C for high-performance acidic overall water splitting
Densely populated tiny RuO 2 crystallites supported by
Single-site Pt-doped RuO2 hollow nanospheres with interstitial C for high-performance acidic overall water splitting
Single-site Pt-doped RuO2 hollow nanospheres with interstitial C
Single-site Pt-doped RuO2 hollow nanospheres with interstitial C for high-performance acidic overall water splitting
Recent advances in Ru/Ir-based electrocatalysts for acidic oxygen
Single-site Pt-doped RuO2 hollow nanospheres with interstitial C for high-performance acidic overall water splitting
IrOx·nH2O with lattice water–assisted oxygen exchange for high
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