MoS<sub>2</sub>–Ag Nanocomposite-Based SERS Substrates with an Ultralow Detection Limit
Arvind Kaushik, Jaspal Singh, Jaspal Singh, Ravikant Soni, J. P. Singh, J. P. Singh
Abstract
Two-dimensional (2D) materials have been found to work efficiently for surface-enhanced Raman spectroscopy (SERS) owing to their electronic properties, tunable band gap, and layered structure with high absorption power. In this work, we have synthesized different morphologies of the MoS 2, including the flower, interconnected nanoplates, and sheets, by the facile hydrothermal method to explore their morphological dependence for SERS application. The SERS substrate prepared with the nanoplate morphology MoS 2 structures shows excellent detection up to 10 –9 M concentration of rhodamine B (RhB) dye. RhB dye has genotoxic and carcinogenic effects on human as well as aquatic life, and it is illegally used as a food adulterant despite the prohibition. Thus, sensitive detection of RhB even at low concentrations is highly desired. MoS 2 nanoplates have been functionalized with Ag nanoparticles (NPs) to optimize the MoS 2 SERS performance. The MoS 2 –Ag nanocomposite SERS substrates successfully detect an ultralow concentration of 10 –15 M of RhB dye with an enhancement factor of 9.2 × 10 7 . A charge transfer mechanism between RhB molecules and MoS 2 is proposed along with the contribution of Ag NPs in ultralow SERS detection.