2019
DOI: 10.1021/acs.analchem.9b02394
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Facile Reduction Method Synthesis of Defective MoO2–x Nanospheres Used for SERS Detection with High Chemical Enhancement

Abstract: Recently, more and more attention has been given to a semiconductor oxide-based surface-enhanced Raman spectroscopy substrate for its great stability and biocompatibility. However, its poor SERS sensitivity limits the applications of semiconductor oxide SERS substrates. In this paper, we provide a facile reduction method to modulate oxygen vacancy concentrations in oxide SERS substrates. Using MoO2 as an example, the resonance coupling as well as charge transfer between the semiconductor oxide SERS substrate a… Show more

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Cited by 54 publications
(36 citation statements)
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“…In addition to R6G, several polychlorinated phenol molecules were also detected at submicromolar concentrations. Moreover, the plasmonic activity of MoO2 nanostructures can be further enhanced by introducing oxygen vacancies, as was shown by Cao et al 75 , who induced surface oxygen vacancy sites by reductive treatment with lithium (Fig. 4b).…”
Section: Metallic Semiconductorssupporting
confidence: 54%
“…In addition to R6G, several polychlorinated phenol molecules were also detected at submicromolar concentrations. Moreover, the plasmonic activity of MoO2 nanostructures can be further enhanced by introducing oxygen vacancies, as was shown by Cao et al 75 , who induced surface oxygen vacancy sites by reductive treatment with lithium (Fig. 4b).…”
Section: Metallic Semiconductorssupporting
confidence: 54%
“…Some physical methods can also construct defects in semiconductors, for instance, lithium metal grinding reduction will introduce surface defects in MoO 2 nanospheres (Figure 9A). 92 The Raman intensity of R6G absorbed on the defective MO 2− x substrate was greatly enhanced than that on the nonvacancy MoO 2 . Femtosecond laser pulses also can fabricate defects on the surface of semiconductors.…”
Section: Smart Design Of Semiconductor Substratesmentioning
confidence: 94%
“…Cao et al also applied a facile reduction method to modulate the oxygen vacancy concentration in oxide SERS substrates. 70 By controlled reduction with metal lithium, the authors obtained a MoO 2Àx nanosphere product with adjustable oxygen deficits. A plateau in the Raman enhancement with an LOD of 10 À8 M for R6G was observed on the 6-wt % Li-treated MoO 2Àx substrate, which was ascribed to the saturated promotion effect of the CT in relationship with oxygen deficits in the MoO 2Àx samples.…”
Section: Review Llmentioning
confidence: 99%