Qing Guo Ren scite author profile

A novel hierarchical three-dimensional (3D) Cu 2 S@ZnO heteroarchitecture was successfully synthesized by a facile three-step synthetic process. FESEM and TEM analyses revealed the formation of the hierarchical 3D structure of the as-prepared Cu 2 S@ZnO. The purity and crystalline phase of the individual component in the 3D Cu 2 S@ZnO were determined by a powder X-ray diffractogram. The formation of the hierarchical 3D structure of the as-prepared Cu 2 S@ZnO leads to multiple p-n junctions formed at p-Cu 2 S@n-ZnO interfaces, which promote the generation and separation of photoinduced electrons and holes and thus improves the photocatalytic efficiency tremendously. According to the data, after irradiation for 40 min, the remaining MB in solution is about 35% for Cu 2 S nanoflowers and 9% for Cu 2 S@ZnO binary nanoflowers. Also, the increases in the overall aspect ratio and the ZnO nanoparticles act as extra emission sites, which help to enhance the field emission properties. The turn-on fields and threshold fields for the Cu 2 S nanoflowers as well as the Cu 2 S@ZnO nanoflower hybrid emitters are 3.3 and 9.2 V mm 21 , 2 and 6.3 V mm 21 , respectively. Compared with the Cu 2 S nanoflowers, the Cu 2 S@ZnO hetero-nanoflowers show excellent improvements in both photocatalytic and field emission applications.

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Triptolide delivery: Nanotechnology-based carrier systems to enhance efficacy and limit toxicity

Ren

Deng

et al. 2021

Pharmacological Research

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Qing Guo Ren

Influence of Co doping on structural, optical and magnetic properties of BiFeO3 films deposited on quartz substrates by sol–gel method

Cu2S@ZnO hetero-nanostructures: facile synthesis, morphology-evolution and enhanced photocatalysis and field emission properties

Triptolide delivery: Nanotechnology-based carrier systems to enhance efficacy and limit toxicity

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