2020
DOI: 10.3390/nano11010075
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Substrates for Surface-Enhanced Raman Scattering Formed on Nanostructured Non-Metallic Materials: Preparation and Characterization

Abstract: The efficiency of the generation of Raman spectra by molecules adsorbed on some substrates (or placed at a very close distance to some substrates) may be many orders of magnitude larger than the efficiency of the generation of Raman spectra by molecules that are not adsorbed. This effect is called surface-enhanced Raman scattering (SERS). In the first SERS experiments, nanostructured plasmonic metals have been used as SERS-active materials. Later, other types of SERS-active materials have also been developed. … Show more

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Cited by 29 publications
(21 citation statements)
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References 104 publications
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“…Therefore, concrete solutions have been proposed to improve the EM enhancement in ZnO nanostructures by combining them with noble metal NPs and tuning the peak location of the LSPR near to the visible region of the EM spectrum and by creating “hot spots” in ZnO ordered nanostructures [ 15 ]. This results in strong scattering and absorption of incident light, thus influencing optical processes such as SEF, SERS [ 16 17 ], infrared absorption, and even second harmonic generation [ 18 ], which can improve the performance of optical sensors and optoelectronic devices. ZnO alone and in combination with noble metals has been recently used for the development of SERS substrates [ 15 , 19 ] due to several properties including a high refractive index, which can confine the excitation light in order to enhance the SERS effect, various types of tuneable morphologies that can be used in combination with noble metals, but also its biocompatibility, photocatalytic self-cleaning capability, and high chemical stability, to name just a few.…”
Section: Introductionmentioning
confidence: 99%
“…Therefore, concrete solutions have been proposed to improve the EM enhancement in ZnO nanostructures by combining them with noble metal NPs and tuning the peak location of the LSPR near to the visible region of the EM spectrum and by creating “hot spots” in ZnO ordered nanostructures [ 15 ]. This results in strong scattering and absorption of incident light, thus influencing optical processes such as SEF, SERS [ 16 17 ], infrared absorption, and even second harmonic generation [ 18 ], which can improve the performance of optical sensors and optoelectronic devices. ZnO alone and in combination with noble metals has been recently used for the development of SERS substrates [ 15 , 19 ] due to several properties including a high refractive index, which can confine the excitation light in order to enhance the SERS effect, various types of tuneable morphologies that can be used in combination with noble metals, but also its biocompatibility, photocatalytic self-cleaning capability, and high chemical stability, to name just a few.…”
Section: Introductionmentioning
confidence: 99%
“…In this sense, we observe a trend in semiconductors nanoengineering in order to enhance their SERS performance since they may present more stability and allow self-cleaning. To this respect, it is worth mentioning the review by Krajczewski and co-workers [5] where several semiconductors' interesting features have been addressed.…”
Section: Discussionmentioning
confidence: 99%
“…Secondly, when metal nanoparticles (MNPs) are attached to a solid support, they can be placed together in close proximity assuring stability and large enhancements. Thus, nanostructured semiconductors or insulators are used to support plasmonic metals, even paper-based SERS substrates are available [5]. However, one disadvantage of a typical matrix of deposited MNPs is that they cannot be easily reused because the analytes will stay adsorbed on the surface and cause interference.…”
Section: Sers Substrates and Tio 2 /Mnps Arraysmentioning
confidence: 99%
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“…It is usually effective for a molecule that directly contacts nanostructure surface, especially via chemo-adsorption. Generally, EM mechanism dominates the total enhancement, even for the molecule directly adsorb on nanostructure surface [ [66] , [67] , [68] ].
Fig.
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Section: Main Metabolic Molecules Detecting Methodsmentioning
confidence: 99%