Jiaheng Yu scite author profile

Ag@Cu x OS yolk−shell nanoparticles with hollow shells were designed through an ion-exchange route from Au@Cu 2 O nanoparticles. This isolated yolk−shell structure can be used to overcome the material limitations and generality of a surface-enhanced Raman scattering (SERS) morphology. Both surface plasmon resonance (SPR) and charge-transfer (CT) contributions increase when the diameter of the Ag@Cu x OS nanoparticles decreases. Because of the SPR effect of Ag upon irradiation with incident light, the induced hot electrons were injected into 4-mercaptobenzoic acid through the Cu x OS shell to complete the CT transition. SERS is an effective and simple method for studying the SPR effect at the nanomaterial interface, which is a good candidate method for investigations of interfacial CTs. Furthermore, 2D correlation SERS spectroscopy was performed to confirm the possible CT process and to support our proposed conclusion. The design and fabrication of a SERS-active metal and semiconductor core−shell nanostructures may provide a strategy to overcome the limitations associated with the performance of a single material.

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Jiaheng Yu

Probing the charge-transfer of Ag/PEDOT:PSS/4-MBA by surface-enhanced raman scattering

Size-Dependent Surface-Enhanced Raman Scattering Activity of Ag@Cu_xOS Yolk–Shell Nanostructures: Surface Plasmon Resonance Induced Charge Transfer

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Jiaheng Yu

Probing the charge-transfer of Ag/PEDOT:PSS/4-MBA by surface-enhanced raman scattering

Size-Dependent Surface-Enhanced Raman Scattering Activity of Ag@CuxOS Yolk–Shell Nanostructures: Surface Plasmon Resonance Induced Charge Transfer

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Size-Dependent Surface-Enhanced Raman Scattering Activity of Ag@Cu_xOS Yolk–Shell Nanostructures: Surface Plasmon Resonance Induced Charge Transfer