Recent advances in nanotechnology have opened exciting possibilities across diverse fields. The scope of nanotechnology is vast, encompassing applications in environmental science, electronics, medicine, materials science, and energy. Examples of recent innovations include nanostructured drug delivery systems, sophisticated nano sensors, electronics, quantum dots, energy-conversion catalysts, and environmental remediation nanomaterials. At its core, nanotechnology involves the deliberate control and manipulation of matter at dimensions typically between 1 and 100 nanometres, unlocking unique properties and behaviours that can be harnessed for innovative solutions.
Shalini Dwivedi* (Mon,) studied this question.