Nanobiotechnology is a multidisciplinary area that translates the applications of nanomaterials in biotechnology with significant practice in medicine, health, drug delivery, tissue engineering, imaging, immunoproteomics, cosmetics, pharmacy, and agriculture. Furthermore, Nanobiotechnology has been involved in creating smart drug delivery and gene therapy tools, nanodiagnostics, nanobiosensors, nanofluidic devices, and nanodevices. In addition, nanomaterials, nanoparticles, and nanocolloids can be formulated by using chemical, physical and biological methods. Currently, there is an impending need for the development of cost-effective and environment-friendly methods used in the field of nanobiotechnology.
In this respect, this Research Topic aims to highlight technologies and up-to-date methods which help advance science with the latest experimental techniques and methods used to investigate fundamental questions in Nanobiotechnology research that can help to address unsolved issues in medicine by enhancing knowledge of the biological processes at nanoscale level. Moreover, studies related to novel experimental techniques and methods to the design of new biomaterials and medical devices as well as review articles or opinions on methodologies or applications including the advantages and limitations of each will be welcomed. The contributions to this collection will undergo peer-review. Novelty may vary, but the utility of a method or protocol must be evident.
This Research Topic welcomes:
• Methods: Describing either new or existing methods that are significantly improved or adapted for specific purposes. These manuscripts may include primary (original) data.
• Original Research showing proof of concepts and applications of innovative protocols
• Perspective or General Commentaries on methods and protocols relevant for physiology research.
• Reviews and mini-reviews of topical methods and protocols highlighting the important future directions of the field.
Nanobiotechnology is a multidisciplinary area that translates the applications of nanomaterials in biotechnology with significant practice in medicine, health, drug delivery, tissue engineering, imaging, immunoproteomics, cosmetics, pharmacy, and agriculture. Furthermore, Nanobiotechnology has been involved in creating smart drug delivery and gene therapy tools, nanodiagnostics, nanobiosensors, nanofluidic devices, and nanodevices. In addition, nanomaterials, nanoparticles, and nanocolloids can be formulated by using chemical, physical and biological methods. Currently, there is an impending need for the development of cost-effective and environment-friendly methods used in the field of nanobiotechnology.
In this respect, this Research Topic aims to highlight technologies and up-to-date methods which help advance science with the latest experimental techniques and methods used to investigate fundamental questions in Nanobiotechnology research that can help to address unsolved issues in medicine by enhancing knowledge of the biological processes at nanoscale level. Moreover, studies related to novel experimental techniques and methods to the design of new biomaterials and medical devices as well as review articles or opinions on methodologies or applications including the advantages and limitations of each will be welcomed. The contributions to this collection will undergo peer-review. Novelty may vary, but the utility of a method or protocol must be evident.
This Research Topic welcomes:
• Methods: Describing either new or existing methods that are significantly improved or adapted for specific purposes. These manuscripts may include primary (original) data.
• Original Research showing proof of concepts and applications of innovative protocols
• Perspective or General Commentaries on methods and protocols relevant for physiology research.
• Reviews and mini-reviews of topical methods and protocols highlighting the important future directions of the field.