Nanoscience, nano-medicine and bio-nanotechnology
Special Issue Information
Dear Colleagues,
Understanding and working with matter at the nanoscale, which is usually between 1 and 100 nanometers, is the main goal of nanoscience, an interdisciplinary field that includes physics, chemistry, biology, and engineering. Within this field, two essential subfields are nanomedicine and bio-nanotechnology. Utilizing nanotechnology for medicinal purposes, nano-medicine is transforming medication administration, diagnosis, imaging, and therapy. Through molecular engineering of nanoparticles, specific drug delivery systems can be developed, enabling accurate medication administration with few adverse effects. Furthermore, nanoscale imaging methods improve the visibility of biological processes, supporting the development of tailored treatment plans and the early diagnosis of disease. Designing novel biomaterials, biosensors, and nanodevices for biological applications is made possible by the fusion of biology with nanotechnology, or bio-nanotechnology. Scientists utilize biomolecules including proteins, DNA, and enzymes to create customized nanostructures with distinct characteristics and capabilities. These nanostructures open the door to improved treatments and diagnostics through their use in tissue engineering, medication development, and bioimaging. All things considered, the fields of nanoscience, nanomedicine, and bio-nanotechnology have enormous potential to address urgent healthcare issues. They present previously unheard-of chances to boost treatment effectiveness, enhance patient outcomes, and deepen our comprehension of biological systems at the nanoscale.
Understanding and modifying matter at the nanoscale is the goal of nanoscience, nanomedicine, and bio-nanotechnology, which are fields that are making significant strides in this field. In order to advance materials science, electronics, and energy, nanoscience investigates the basic characteristics of materials. Targeted drug delivery, accurate imaging, and regenerative therapy for illnesses like cancer are some of the ways that nanomedicine hopes to transform healthcare. In order to promote advancements in biosensing, diagnostics, and biomolecular computing, bio-nanotechnology combines biological systems with nanomaterials. All of these disciplines work together to improve human health, transform technology, and develop long-term solutions for a world that is changing quite quickly.
The experiences of "nanoscience, nano-medicine, and bio-nanotechnology" should be gathered. We invite seminal research articles and reviews in this field of study.
We look forward to receiving your contributions.
Dr. Mayank Joshi
Section Editor