Monolayers of Amino Acid-Synthesized Gold Nanoparticles as SERS Substrates for Trace Chemical Sensing.

In recent years, extensive studies have been devoted to the applications of surface-enhanced Raman spectroscopy (SERS) in detecting and identifying trace amounts of various analytes. The crucial issue for SERS applications is the selection of reliable and reproducible substrates. Therefore, most studies were dedicated to their fabrication, characterization, and evaluation using selected test compounds. This article reports the results of comparative studies on the fabrication, characterization, and evaluation of SERS substrates in the form of monolayers of amino acid-synthesized gold nanoparticles (AuNPs) on silicon and glass platforms. The combination of AuNPs synthesized with five amino acids and four platforms with smooth and rough surfaces yielded 17 potential SERS substrates. SERS substrates and their components were characterized using microscopy and spectroscopy techniques. The SERS performance of fabricated substrates was evaluated using -mercaptobenzoic acid and 1,2-bis(4-pyridyl)ethylene as test analytes. The studies showed that not all AuNPs synthesized with amino acids are suitable for fabricating efficient SERS-active substrates. The AuNPs' surface chemistry influences the fabrication and performance of SERS substrates. Among the fabricated SERS-active substrates, the highest enhancement factors (EFs) were estimated for those made with l-serine-synthesized AuNPs.