Well Controlling of Plasmonic Features of Gold Nanoparticles on Macro Porous Silicon Substrate by HF Acid Concentration

In this work, we fabricated an efficient macroporous silicon/gold nanoparticles (macro psi/AuNPs) hybrid structure and how well controlling of plasmonic features on macro psi/AuNPs employs them for highly sensitive detection of the very low concentration of cyanine (Cy) dyes molecules. Macro-PSi was synthesized on n-type Si wafer with 3–10 Ω. cm resistivity and 100 orientation using Photo Electro Chemical Etching (PECE) process with630 nm illumination wavelength and 30 mW/cm(2) illumination intensity. The macroPSi /AuNPs hybrid structure substrates were prepared by simple and quick dipping process of macroPSi in tetrachloroauric gold solution HAuCl(4) with different concentrations of (10(−2) M, 10(−2) M diluted in 2.9 M of HF, 5 × 10(−3) M, and 5 × 10(−3) M diluted in 2.9 M of HF). Efficient surface-enhanced Raman scattering (SERS) signals was obtained from macroPSi/AuNPs substrates for Cy dye concentration of about 10(−6) and 10(−10) M. The detection method is dependent on a nanoparticles sizes process through controlling the concentration in a HAuCl(4) solution. Higher SERS signal was found for sample with lower salt concentration of 5 × 10(−3) M diluted in HF. The enhancement factors (EF) of Raman’s signal increased four orders of magnitude by diluting the salt concentration. The values of EF in the range of 0.8 × 10(3−)0.72 × 10(7) were obtained by controlling the salt concentration from 10(−2) to 5 × 10(−3) diluted in HF acid.