Explore how in situ technology is transforming marine environmental science by enabling real-time observation of ocean life in its natural habitat.
Exploring how engineered carbon materials and 3D printing are transforming electrochemical sensing technology, making it more affordable and accessible.
Research reveals how malathion pesticide disrupts shrimp nervous systems by inhibiting acetylcholinesterase, with implications for aquatic ecosystems and human health.
Exploring the revolutionary interface between enzymes and nanoparticles that's transforming molecular catalysis and biotechnology.
Exploring how nanotechnology is transforming agriculture through precision nutrient delivery, soil remediation, and smart farming solutions.
Discover how titanium dioxide nanotubes and chitosan from shrimp shells are creating breakthrough glucose biosensors for diabetes management.
Discover how cyclodextrin-based nanosponges cross-linked with dianhydrides are revolutionizing drug delivery, toxin removal, and biomedical applications.
Explore how hyperpolarization techniques are revolutionizing NMR and MRI for colloidal and interfacial science, enabling unprecedented molecular-level insights.
Exploring how narrow bandgap colloidal metal chalcogenide quantum dots are transforming infrared technology through quantum confinement and innovative engineering.
Exploring the transformative potential of nanographene in biomedical and sensing technologies, from ultra-sensitive diagnostics to smart theranostic systems.