Quantum dots (QDs), due to their remarkable optical properties, have emerged as promising materials for a wide range of applications. These nanocrystals exhibit tunable radiance based on their size and composition. Surface modification strategies play a crucial role in enhancing the performance of QDs by altering their surface chemistry and thus in

Lead sulfide nanoparticle dots (QDs) represent a fascinating class of materials with exceptional optoelectronic properties due to their unique size-dependent band gap. These QDs exhibit tunable absorption and emission spectra in the visible region, making them highly desirable for a wide range of applications. Recent review delves into the diverse

Medical implants represent a revolutionary approach to address a wide range of illnesses. These cutting-edge technologies are engineered to bond seamlessly with the organic body, improving its natural functions. From joint implants that repair damaged structures to pacemakers that regulate cardiac activity, medical implants have profoundly altered