Abstract
The significant demand for accurate and accessible sensors has led to significant advances in nanotechnology. This is especially relevant to the use of advanced nanomaterials; in this study, a hybrid composite of MWCNTs and MXene was produced. The MXene/MWCNT composite was made by sonication procedures and subsequently assessed by using X-ray diffraction (XRD) and field emission scanning electron microscopy (FESEM) to verify successful integration and enhanced structural properties. The produced sensor exhibited a detection limit of 3.053 μg/L and a sensitivity of 2.55 mA μg(-1) L. Additionally, it demonstrated exceptional electrical performance and a linear, beneficial response to varying SMX concentrations. This potential of MWCNTs/MXene-based sensors makes them effective tools for detecting pharmaceutical residues with high sensitivity for practical field uses.