Collection

Intelligent Nanophotonics for Bio-Inspired Environmental Computation

Submission status
Closed
Many Scientific researchers have demonstrated the influence of nanotechnology in the field of Optoelectronics. The involvement of Nano-Optoelectronics provides a scope of advanced and healthy future for the welfare of humans and environment. Nano-Optoelectronics helps in early diagnosis and targeted therapy Devices, leading to significant progress in accelerating precision of Bio Inspired medicine applications. The utilization of Nano-Bioelectronics for the development of novel focused nano-carrier systems has the potential to offer to improve Opto-medicines, environmental products which delivered through improved pharmacokinetics, pharmacodynamics, and safety profiles. Photonic innovations related to biology and medicine have seen rapid development in the last decade. The salient properties of light, including frequency, coherence, dynamic wave fronts, orbital and spin angular momentum and polarization, have had a tremendous influence on the visualization of biological processes in cells and tissues as an important imaging and diagnostic tool. Technological developments in optics and photonics, including spectroscopy, microscopy and laser sources, allow non-invasive detection at the molecular level of the structures and functions of cells and tissues in living organisms. The influence of nanotechnology in the field of Optoelectronics has been demonstrated by many scientists and researchers. Nano-Photonics involvement provides a range of advanced and healthy future for human welfare and environment. Nano-Photonics helps to speed up precision environmental applications in early diagnosis and targeted applications, leading to significant progress. The use of nano-bioelectronics for the development of novel, targeted nano-carrier systems has the potential to offer Opto-environmental products that have been delivered through improved pharmacokinetics, pharmacodynamics and safety profiles. Particular attention has been drawn to the application of photonics particles in biomedical fields, as they allow non or minimally invasive monitoring of cell/tissue morphology and dynamics, disease pathogenesis, and more for the welfare of the environment. The aim of this special issue is to highlight recent developments and accomplishments in nano-photonics inspired by Bio Computation and innovations in Environmental Application studies.

Editors

  • Dr. B. Sivakumar Dr. B. Sivakumar

    Dr. B. Sivakumar

    (Lead Guest Editor) SRM Institute of Science and Technology (SRMIST) Chennai, INDIA E-mail: drsiva_srmist@outlook.com sivakumb2@srmist.edu.in

  • Dr. Ali Kashif Bashir Dr. Ali Kashif Bashir  &

    Dr. Ali Kashif Bashir

    Associate Professor Department of Computing and Mathematics, Manchester Metropolitan University, Manchester, United Kingdom E-mail: dr.alikashif.b@ieee.org

  • Dr. Keping YU Dr. Keping YU

    Dr. Keping YU

    Global Information and Telecommunication Institute, Waseda University, Shinjuku, Tokyo, 169-8050, Japan Email: keping.yu@aoni.waseda.jp

Articles (14 in this collection)