Stable hollow silica microspheres were synthesized by a solgel method in nonionic W/O emulsion; the mesoporous shell wall of the spheres could have potential applications as controlled release capsules for drugs, dyes, cosmetics and inks, artificial cells, catalysts, and fillers.
Replacing oxygen evolution reaction (OER) by electrooxidations of organic compounds has been considered as a promising approach to enhance the energy conversion efficiency of the electrolytic water splitting proces. Developing efficient electrocatalysts with low potentials and high current densities is crucial for the large‐scale productions of H2 and other value‐added chemicals. Herein, non‐noble metal electrocatalysts Co‐doped Ni3S2 self‐supported on a Ni foam (NF) substrate are prepared and used as catalysts for 5‐hydroxymethylfurfural (HMF) oxidation reaction (HMFOR) under alkaline aqueous conditions. For HMFOR, the Co0.4NiS@NF electode achieves an extremely low onset potential of 0.9 V versus reversible hydrogen electrode (RHE) and records a large current density of 497 mA cm–2 at 1.45 V versus RHE for HMFOR. During the HMFOR‐assisted H2 production, the yield rates of 2,5‐furandicarboxylic acid (FDCA) and H2 in a 10 mL electrolyte containing 10 × 10−3 M HMF are 330.4 µmol cm–2 h–1 and 1000 µmol cm–2 h–1, respectively. The Co0.4NiS@NF electrocatalyst displays a good cycling durability toward HMFOR and can be used for the electrooxidation of other biomass‐derived chemicals. The findings present a facile route based on heteroatom doping to fabricate high‐performance catalyses that can facilitate the industrial‐level H2 production by coupling the conventional HER cathodic processes with HMFOR.
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