Nanoimprinting has emerged as a transformative technology in the realm of biomedical applications, offering unprecedented precision in the fabrication of nanoscale structures for use in medical devices and diagnostics. This technique allows for the replication of intricate patterns on biocompatible materials, enabling the development of advanced biomedical tools. In the field of drug delivery, nanoimprinting plays a crucial role in designing and manufacturing nanostructured delivery systems. By precisely controlling the size and shape of drug carriers, nanoimprinting enhances drug delivery efficiency and reduces side effects. Moreover, nanoimprinted surfaces can be tailored for specific interactions with biological entities, facilitating targeted drug delivery. Diagnostic tools also benefit from nanoimprinting, particularly in the creation of biosensors and biochips. The ability to replicate nanoscale features on sensing surfaces enhances the sensitivity and specificity of diagnostic devices. Nanoimprinted biosensors enable rapid and accurate detection of biomarkers, paving the way for advancements in early disease diagnosis.






Title : A proposal of chemical sensor based on polycrystalline Cu2O nanofilm
Paulo Cesar De Morais, Catholic University of Brasilia, Brazil
Title : Ferrofluid mediated synthesis of nanomagnetic polymer materials in supercritical fluids
M G H Zaidi, G B Pant University of Agriculture & Technology, India