Strong Interface Interaction of ZnO Nanosheets and MnSx Nanoparticles Triggered by Light over Wide Ranges of Wavelength to Enhance Their Removal of VOCs

Abstract: The characteristics of the surface and interface of nanocomposites are important for exerting multi-functional properties and widening interdisciplinary applications. These properties are mainly depending on the electronic structures of materials. Some key factors, such as the surface, interface, grain boundaries, and defects take vital roles in the contribution of desired properties. Due to the excellent sensitivity of the QCM (quartz crystal microbalance) device, the surface and interface features of the nan… Show more

“…Further, since there are many ways to passivate the defects of nanocomposites based on their interfacial electronic interactions, carbon nanofibre was derived using carboxymethyl cellulose under a similar reaction condition, and the interaction between carbon nanofibre and Cu nanoparticles was studied for defect passivation, because Cu nanoparticles are electron-rich materials [77]. In another previous report [78], a ZnO/MnS x nanojunction was constructed to narrow the bandgap of wide-bandgap materials, which showed that the absorption of the resulting nanocomposite was extended to part of the NIR region due to the introduction of an impurity level or defect level. Photocurrent signals were obtained from the visible light region to part of the NIR.…”

Interface Interaction between MoO3 and Carbon Dots Derived from Chitosan Promoted the Photocurrent Extraction Ability of Carriers in a Wide Range of the Light Spectrum

“…Further, since there are many ways to passivate the defects of nanocomposites based on their interfacial electronic interactions, carbon nanofibre was derived using carboxymethyl cellulose under a similar reaction condition, and the interaction between carbon nanofibre and Cu nanoparticles was studied for defect passivation, because Cu nanoparticles are electron-rich materials [77]. In another previous report [78], a ZnO/MnS x nanojunction was constructed to narrow the bandgap of wide-bandgap materials, which showed that the absorption of the resulting nanocomposite was extended to part of the NIR region due to the introduction of an impurity level or defect level. Photocurrent signals were obtained from the visible light region to part of the NIR.…”

Interface Interaction between MoO3 and Carbon Dots Derived from Chitosan Promoted the Photocurrent Extraction Ability of Carriers in a Wide Range of the Light Spectrum

Recent developments and challenges for volatile organic compounds control by the synergistic of adsorption and photocatalysis