Yingnan Quan scite author profile

Surface-enhanced Raman scattering (SERS) and photoluminescence (PL) are important photoexcitation spectroscopy techniques; however, understanding how to analyze and modulate the relationship between SERS and PL is rather important for enhancing SERS, having a great effect on practical applications. In this work, a charge-transfer (CT) mechanism is proposed to investigate the change and relationships between SERS and PL. Analyzing the change in PL and SERS before and after the adsorption of the probe molecules on Nd-doped ZnO indicates that the unique optical characteristics of Nd 3+ ions increase the SERS signal. On the other hand, the observed SERS can be used to explain the cause of PL background reduction. This study demonstrates that modulating the interaction between the probe molecules and the substrate can not only enhance Raman scattering but also reduce the SERS background. Our work also provides a guideline for the investigation of CT as well as a new method for exploring fluorescence quenching.

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A synchronous defect passivation strategy for constructing high-performance and stable planar perovskite solar cells

Sun

Pang

Quan

et al. 2021

Chemical Engineering Journal

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AgNPs decorated Mg-doped ZnO heterostructure with dramatic SERS activity for trace detection of food contaminants

et al. 2019

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ZnO nanoparticles on MoS2 microflowers for ultrasensitive SERS detection of bisphenol A

et al. 2019

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Yingnan Quan

Monitoring the charge-transfer process in a Nd-doped semiconductor based on photoluminescence and SERS technology

A synchronous defect passivation strategy for constructing high-performance and stable planar perovskite solar cells

AgNPs decorated Mg-doped ZnO heterostructure with dramatic SERS activity for trace detection of food contaminants

ZnO nanoparticles on MoS2 microflowers for ultrasensitive SERS detection of bisphenol A

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