Danyang Feng scite author profile

The development of noble-metal-free heterogeneous catalysts is promising for selective oxidation of aromatic alcohols;h owever,t he relatively lowc onversion of non-noble metal catalysts under solvent-free atmospheric conditions hinders their industrial application. Now,aholey lamellar high entropyoxide (HEO) Co 0.2 Ni 0.2 Cu 0.2 Mg 0.2 Zn 0.2 Omaterial with mesoporous structure is prepared by an anchoring and merging process.The HEO has ultra-high catalytic activity for the solvent-free aerobic oxidation of benzyl alcohol. Up to 98 %conversion can be achieved in only 2h,toour knowledge, the highest conversion of benzyl alcohol by oxidation to date. By regulating the catalytic reaction parameters,benzoicacid or benzaldehyde can be selectively optimizedasthe main product. Analytical characterizations and calculations provide adeeper insight into the catalysis mechanism, revealing abundant oxygen vacancies and holey lamellar framework contribute to the ultra-high catalytic activity.

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Boosting High-Rate Zinc-Storage Performance by the Rational Design of Mn2O3 Nanoporous Architecture Cathode

Feng

Gao

Zhang

et al. 2019

Nano-Micro Lett.

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HIGHLIGHTS • Highly crystalline Mn 2 O 3 materials with tunable pore sizes are obtained and employed as high-performance cathode materials for reversible aqueous Zn-ion battery. • The Zn/Mn 2 O 3 battery exhibits significantly improved rate capability and remarkable cycling durability due to the introduction of nanoporous architecture. • The Zn 2+ /H + intercalations mechanism is put forward for the Zn/Mn 2 O 3 battery.

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CoNiCuMgZn high entropy alloy nanoparticles embedded onto graphene sheets via anchoring and alloying strategy as efficient electrocatalysts for hydrogen evolution reaction

Feng

Dong

Nie

et al. 2022

Chemical Engineering Journal

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A general ligand-assisted self-assembly approach to crystalline mesoporous metal oxides

et al. 2018

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Mesoporous transition metal oxides with high crystallinity and large pore volumes were successfully synthesized by a widely applicable ligand-assisted self-assembly approach. In this approach, a carboxyl-containing ligand is employed as a coordination agent to retard the hydrolysis and condensation rates of the precursors. The ligands interact with the PEO chains of P123 via hydrogen bonds, which cooperatively ensures the controllable co-assembly of template micelles and the metal source during solvent evaporation. The X-ray diffraction, transmission electron microscopy, and nitrogen sorption results show that the obtained mesoporous metal oxides are constructed from numerous highly crystalline nanoparticles and possess close-packed mesostructures with uniform pore size distributions. A series of mesoporous transition metal oxides (Co

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Danyang Feng

Holey Lamellar High‐Entropy Oxide as an Ultra‐High‐Activity Heterogeneous Catalyst for Solvent‐free Aerobic Oxidation of Benzyl Alcohol

Boosting High-Rate Zinc-Storage Performance by the Rational Design of Mn2O3 Nanoporous Architecture Cathode

CoNiCuMgZn high entropy alloy nanoparticles embedded onto graphene sheets via anchoring and alloying strategy as efficient electrocatalysts for hydrogen evolution reaction

A general ligand-assisted self-assembly approach to crystalline mesoporous metal oxides

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