4 article(s) from Rodyakina, Ekaterina E.
Figure 1: Representative SEM images of a) and b) linear and c) and d) H-shaped nanoantenna arrays with differ...
Figure 2: a) Typical IR transmission spectrum for the array of nanoantennas with a length of 1800 nm. The low...
Figure 3: Optimized nanoantenna length L vs the transverse crossarm length LH for H-shaped nanoantennas with ...
Figure 4: Distribution of the normalized LSPR electric field magnitude on top of the Si surface underlying th...
Figure 5: IR transmission spectra of the array of a) nanoantennas and b) microantennas measured at different ...
Figure 6: a) Evaluating the spectral behavior of the dipole radiation from a unit cell of the Si-backed array...
Figure 7: SEM images of the nanoantenna edges for a) linear and b) H-shaped nanoantennas taken after depositi...
Figure 8: IR transmission spectra of the linear nanoantenna arrays before nanocrystal (NC) deposition (black ...
Figure 1: Typical SEM images of the fabricated Au nanoantennas for the mid-IR spectral region. Nanoantenna le...
Figure 2: Typical IR transmission spectra of linear antennas with different lengths.
Figure 3: LSPR energy in nanoantenna arrays fabricated on bare Si surfaces as a function of the nanoantenna l...
Figure 4: LSPR frequencies of nanoantenna arrays versus the SiO2 thickness. Six structures with different ant...
Figure 5: a) Structure geometry definition for the nanoantenna array (the unit cell is shown). b) Example of ...
Figure 6: Experimental (a,c) and calculated (b,d) IR transmission spectra of nanoantenna array with the lengt...
Figure 7: Splitting the LSPR modes due to plasmon–phonon interaction for nanoantennas with the lengths of 140...
Figure 1: A sketch representing (a) a regular Au nanocluster array and (b) a Au dimer array.
Figure 2: (a) SEM image of a single monolayer of CdSe NCs deposited on Si (bottom) and Au nanocluster arrays ...
Figure 3: (a) SERS spectra of a single monolayer of CdSe NCs deposited on the nanocluster arrays with decreas...
Figure 4: (a) SEM image of submonolayer coverage of CdSe NCs deposited on a Au dimer array. (b) An enlarged f...
Figure 5: (a) The representative reflection spectra of Au dimer arrays with decreasing gap size (Δ = 15 cm, 1...
Figure 6: SERS spectra of a submonolayer of CdSe NCs deposited on the dimer array with a gap size of about 10...
Figure 7: (a) SERS spectra of a submonolayer of CdSe NCs deposited on dimer arrays with increasing gap size m...
Figure 1: A typical Raman spectrum of the dense ensemble of CuS NCs (about 5–6 MLs) on a Au substrate excited...
Figure 2: Raman spectra of CuS NCs (of about 1 ML coverage) fabricated on a Si substrate with a SiO2 layer of...
Figure 3: The dependence of the IERS enhancement factor of phonon modes in CuS NCs on the thickness of the SiO...
Figure 4: a) SEM image and b) micro-Raman spectra of CuS NCs deposited on Si (lower part) and Au nanocluster ...
Figure 5: Raman spectra of CuS NCs deposited on bare Si, 75 nm SiO2 layer on Si, and on Au arrays fabricated ...
Figure 6: a) SEM image of CuS NCs with an ultra-low areal density deposited on Au arrays on SiO2 layer and b)...