Editorial - (2021) Volume 12, Issue 5

Note on Nanostructured Materials Used in Biomedical Applications
Zang Wang*
 
Department of Material Science, LV University, China
 
*Correspondence: Zang Wang, Department of Material Science, LV University, China, Email:

Received: 12-May-2021 Published: 19-May-2021, DOI: 10.35248/2157-7439.21.12.e111

Introduction

Current developments in nano structured materials and engineering can have profound impact in several areas like energy technologies and medicine applications. These embody star cells, energy storage, environmental management, tissue engineering, bioprobe, biomarking, cancer designation, cancer medical aid, and drug delivery. several crucial problems in nano structured materials, significantly their applications in biomedicine should be addressed before clinical applications. Some of the key problems in biomedicine, affect bioactivity, compatibility, toxicity, and nanobio surface properties. In the medicine applications, ancient materials science and engineering face new challenges within the synthesis and microstructure development since the necessities for general materials should be supported special medical wants. the foremost fascinating development in nanobiomedicine is to be found in medicine designation and treatment, and involve sthe direct use of nanomaterials at intervals a biological system. Today, in vivo imaging by fluorescent nanoparticles like quantum dots is progressing rapidly; and cell targeting via surface functionalized nanoparticles is undergoing animal tests and may be offered at intervals a number of years. Localized drug delivery for growth treatment by specially designed nanoscale systems is additionally being tested. Up to now, investigators have tried to develop explicit nanoscaled systems with surface functionalized teams that square measure ready to conjugate with a range of biological molecules together with polymer, RNA, and viruses. These new technologies will have vital potential in environmental watching, bioprobe, and quantitative virus detection. The challenge for future nanobiomedicine issues however nanoparticles interface with biological systems with high biodegradability and minimum toxicity. we want to understand the way to style and synthesize nanoscale structures for a range of medical and biological applications.

This special issue summarizes the foremost recent analysis and development s in nanostructured materials and their applications in a very type of applications. The articles during this issue address the crucial issues in nanomateri-als synthesis, structure, and properties. The special issue devotes many articles to varied aspects of nanomate-rials and medicine applications. careful experimental procedures square measure given in conjunction with medicine issues. significantly, these articles offer overviews of nanoscience and technology and therefore the basic info relevant to the synthesis of nanomaterials. As nano science advances chopchop, in depth analysis activities are emphasised on the look and development of latest nano-materials. because of special needs in each engineering and biomedicine, the materials developments are directed to resolution key issues that square measure totally different from those of ancient materials. for example, diagnosing needs multi practicality such imaging and drug delivery square measure most well-liked to require place at constant time. Therefore, novel nanomaterials and technologies square measure required for coping with specific medical problems. Another crucial issue deals with the nano- and bio interfaces involving nanoparticle surface functionalization. this can be significantly vital innano-biocomposites. practical teams should be deposited on the nanoparticles surfaces so as to conjugate biological molecules for purpose of targeting, virus detection, and drug delivery.

Citation: Wang Z (2021) Note on Nanostructured Materials Used in Biomedical Applications. J Nanomed Nanotech. 12: e111.

Copyright: © 2021 Wang Z. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.