Recent Advances in Nanomaterial-Based and Colorimetric
Technologies for Detecting Illicit Drugs and
Environmental Toxins
Abstract:
The global surge in illicit drug use has intensified the demand for rapid, portable, and
reliable on-site detection technologies. Traditional analytical approaches, such as laboratorybased instrumentation and biological sample assays, while accurate, are often constrained
by high costs, long processing times, and the need for specialized equipment, rendering them unsuitable for field applications. This review highlights recent progress in
chemical sensor technologies designed for the detection of widely misused drugs such
as methamphetamine, cocaine, fentanyl, and heroin. Parallel advancements in the detection of environmental contaminants, particularly concerning micro- and nanoplastics, are
also discussed. Emerging sensing platforms employing nanoparticle functionalization,
graphene nanosheets, MXenes, metal–organic frameworks (MOFs), and supramolecular
colorimetric assays demonstrate significant potential for achieving high sensitivity, selectivity, and operational simplicity in portable formats. These innovations enable real-time
detection with minimal user expertise, thereby advancing applications in forensic analysis,
environmental monitoring, and public health protection. The review also addresses current
limitations related to detection accuracy, reagent stability, and matrix interferences and
proposes future directions for optimizing sensor robustness and performance under diverse
field conditions.