FABRICATION OF SURFACE ENHANCED RAMAN SPECTROSCOPY (SERS) SUBSTRATES AND EXAMPLE APPLICATIONS
Raman spectroscopy is a spectroscopic method that can be used to detect and identify certain substances or materials at the molecular level. The measured Raman signal intensity is weak in some situations, such as observations for analytes at low concentrations. As a result, the signal must be enh...
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| Format: | Theses |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/81778 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Raman spectroscopy is a spectroscopic method that can be used to detect and
identify certain substances or materials at the molecular level. The measured
Raman signal intensity is weak in some situations, such as observations for analytes
at low concentrations. As a result, the signal must be enhanced. Surface Enhanced
Raman Spectroscopy (SERS) is one technique that can be used to boost the strength
of the Raman signal. To enable accurate identification of the molecules detected,
the substrate utilised in the SERS approach has a specific degree of roughness. This
substrate can have roughness in the form of gratings, nanorods, nanoparticles, and
more. This research aims to fabricate SERS whose particle size can be controlled
to produce optimum enhancement. The SERS fabricated uses a gold-coated Digital
Versatile Disk (DVD) and ZnO thin film. The SERS substrate was first evaluated
using Methylene Blue as a test analyte. Subsequently, the ability of the substrate to
detect various target molecules was explored by testing its performance with four
common explosives (TNT, PETN, Tetryl and RDX) and commercial pesticides
(DDT and CaCO3). Silicon was chosen as a reference substrate due to its smooth
surface and stable optical properties. In this study, the SERS substrate's
performance was compared to the silicon substrate by measuring the Raman
signals for Methylene Blue, TNT, and commercially available pesticides. The
experimental results revealed significant signal enhancement using the fabricated
SERS substrates. The SERS-DVD substrate exhibited a 172-fold increase in signal
intensity compared to the silicon substrate for the Methylene Blue analyte.
Similarly, the ZnO thin film SERS substrate demonstrated a 14-fold enhancement
for Methylene Blue compared to silicon. For the TNT explosive, the SERS-DVD
substrate produced a Raman signal 8.75-fold stronger than the silicon substrate.
Furthermore, the SERS-DVD substrate yielded superior signal detection for
commercial pesticide analytes (DDT and CaCO3) compared to the silicon
substrate. These findings demonstrate the potential of SERS-DVD and ZnO thin
film substrates for highly sensitive molecular detection, opening new avenues for
research and development in detector technology operating at the molecular level.
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