Advanced & Polymer Biomaterials

  • Biomaterials are constituents that are intended to interrelate with the biological system either as a part of medical device or to replace or repair any injured organs or tissues. Biomaterials can be derived either naturally or synthetically. Some of the natural Biomaterials are silk, gelatin, etc. While the Synthetic ones are the various forms of polymers, ceramics and composites. Bioceramics like Alumina, Bioglass, Zirconia are used to reestablish injured portions of musculoskeletal system and used in dental and orthopaedic fields. Biocomposites are designed by using resin and natural fibres. It can be non-wood natural fibres (rice, wheat, coconut, etc.) Or wood fibres (magazines, soft and hard woods). Metals are mostly a choice of biomaterials in fields of dental, orthopaedic, cardiac implants. As metals can lead to wear, corrosion, so surface coating and modification of metals are essential for medical applications.
  • Carbon dots
  • D Materials heterostructures and superstructures
  • Graphene analogues
  • Hydrogen Technologies
  • Solar thermal Energy
  • Chemical functionalization of Graphene
  • Graphene based products
  • Applications of Carbon in Energy
  • Carbon nanotubes and grapheme
  • Semiconductor Materials and Nanostructures Optical Properties of Advanced Materials
  • Applied Nano Electromagnetics
  • Nonlinear Super Resolution Nano-Optics and Applications
  • Nano Electronic Devices
  • Nano Optics and Nano photonics
  • Progress in Nonlinear Nano Optics
  • Biomedical Optical Instrumentation and Laser Assisted Biotechnology
  • Atomic, Molecular, Optical & Plasma Physics
  • Lasers in Manufacturing and Materials Processing
  • Imaging, microscopy, adaptive optics
  • Photonics
  • Laser beam delivery and diagnostics
  • Lasers in medicine and biology
  • Optical nanomaterials for photonics/biophotonics
  • Advanced spintronic materials
  • Dielectric materials and electronic devices
  • Engineering applications of spectroscopy
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