2020
DOI: 10.1016/j.xinn.2020.100051
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Surface Enhanced Raman Scattering Revealed by Interfacial Charge-Transfer Transitions

Abstract: Surface-enhanced Raman scattering (SERS) is a fingerprint spectral technique highly dependent on the substrate materials.-Charge transfer transitions are commonly the major contributors to the boosted SERS activities in non-metal substrates.-Novel manipulation strategies and extended applications of the versatile substrates are illustrated on the basis of interfacial charge transfer.

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Cited by 169 publications
(171 citation statements)
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“…We note that, despite the low performance on C 8 -BTBT films, a molecular-specific (i.e., among a sample of four analyte molecules) Raman enhancement is achieved on an organic-SERS platform 52 . Considering that undoped π-conjugated organic semiconductors have a low intrinsic free carrier density (10 13 carrier/cm 3 ) 17 , which is much lower than those of metals (10 22 –10 23 carrier/cm 3 ) 53 , electromagnetic contribution to SERS is an implausible mechanism for the current organic films. Therefore, as demonstrated in the previous reports by Lombardi et al 51 , 54 , 55 and our research groups 17 , 18 on (in)organic-SERS platforms, CT resonance occurred at the analyte/semiconductor interface should be the key player to enhance the polarizability derivative tensor for analyte vibrational modes, which consequently leads to Raman signal enhancements.…”
Section: Resultsmentioning
confidence: 99%
“…We note that, despite the low performance on C 8 -BTBT films, a molecular-specific (i.e., among a sample of four analyte molecules) Raman enhancement is achieved on an organic-SERS platform 52 . Considering that undoped π-conjugated organic semiconductors have a low intrinsic free carrier density (10 13 carrier/cm 3 ) 17 , which is much lower than those of metals (10 22 –10 23 carrier/cm 3 ) 53 , electromagnetic contribution to SERS is an implausible mechanism for the current organic films. Therefore, as demonstrated in the previous reports by Lombardi et al 51 , 54 , 55 and our research groups 17 , 18 on (in)organic-SERS platforms, CT resonance occurred at the analyte/semiconductor interface should be the key player to enhance the polarizability derivative tensor for analyte vibrational modes, which consequently leads to Raman signal enhancements.…”
Section: Resultsmentioning
confidence: 99%
“…Due to this, the overall enhancement in the Raman scattering will reduce. Based on the literature, nanoparticles that have a size between 10-100 nm are more suitable for SERS experiments [34,35]. The shape of the nanoparticle is an additional key parameter to consider for improving the SERS performances in metal nanoparticle suspensions.…”
Section: Sers Substrates Used For Biosensingmentioning
confidence: 99%
“…Raman scattering, for instance, since its discovery in the 1920s, has been widely employed as a powerful vibrational spectroscopy technology, capable of providing vibrational fingerprints intrinsic to analytes, thus enabling identification of molecules. 170 Recently, ML methods have been trained to recognize features in Raman (or SERS) spectra for the identity of an analyte by applying DL networks, including ANN, CNN, and fully convolutional network for feature engineering. 171 For example, Leong et al.…”
Section: Ai In Chemistrymentioning
confidence: 99%