CeO -anchored β-Ni(OH) nanosheets onto nickel foam for efficient energy-saving hydrogen production an electrocatalytic glucose oxidation reaction.

Electrolytic glucose oxidation has garnered great interest in energy-saving hydrogen generation. However, high charge-transfer resistance and inefficient active centers have been recognized as the primary issues for poor electrochemical performance. In this study, for the first time, we offer a novel defect-rich CeO /β-Ni(OH) composite nanosheet-decorated Ni foam electrocatalyst (denoted as Ce@NF-GA), synthesized a unique hydrothermal approach under the co-participation of glycerol and acetic acid.

A glucose-assisted redox hydrothermal route to prepare a Mn-doped CeO catalyst for the total catalytic oxidation of VOCs.

In this study, a novel glucose-assisted redox hydrothermal method has been presented to prepare an Mn-doped CeO catalyst (denoted as Mn-CeO-R) for the first time. The obtained catalyst contains uniform nanoparticles with a small crystallite size, a large mesopore volume, and rich active surface oxygen species. Such features collectively contribute to improving the catalytic activity for the total catalytic oxidation of methanol (CHOH) and formaldehyde (HCHO).