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W2573441567 endingPage "5796" @default.
W2573441567 startingPage "5786" @default.
W2573441567 abstract "The significant electric field enhancements that occur in plasmonic nanogap junctions are instrumental in boosting the performance of spectroscopy, optoelectronics and catalysis. Electron tunneling, associated with quantum effects in small junctions, is reported to limit the electric field enhancement. However, observing and quantitatively determining how tunneling alters the electric fields within small gaps is challenging due to the nanoscale dimensions and heterogeneity present experimentally. Here, we report the use of a nitrile probe placed in the nanoparticle-film gap junctions to demonstrate that the change in the nitrile stretching band associated with the vibrational Stark effect can be directly correlated with the local electric field environment modulated by gap size variations. The emergence of Stark shifts correlates with plasmon resonance shifts associated with electron tunneling across the gap junction. Time dependent changes in the nitrile band with extended illumination further support a build up of charge associated with optical rectification in the coupled plasmon system. Computational models agree with our experimental observations that the frequency shifts arise from a vibrational Stark effect. Large local electric fields associated with the smallest gap junctions give rise to significant Stark shifts. These results indicate that nitrile Stark probes can measure the local field strengths in plasmonic junctions and monitor the subtle changes in the local electric fields resulting from electron tunneling." @default.
W2573441567 created "2017-01-26" @default.
W2573441567 creator A5008391873 @default.
W2573441567 creator A5026991176 @default.
W2573441567 creator A5035583564 @default.
W2573441567 creator A5087570898 @default.
W2573441567 date "2017-01-01" @default.
W2573441567 modified "2023-10-10" @default.
W2573441567 title "Detection of electron tunneling across plasmonic nanoparticle–film junctions using nitrile vibrations" @default.
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W2573441567 doi "https://doi.org/10.1039/c6cp08168a" @default.
W2573441567 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/5325176" @default.
W2573441567 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/28180214" @default.
W2573441567 hasPublicationYear "2017" @default.
W2573441567 type Work @default.
W2573441567 sameAs 2573441567 @default.