Nano Electronics And Nano Photonics

Nanoelectronics are based upon the use of nanotechnology in the field of electronics and electronic components and research for the development of electronics such as display, size, and power consumption of the devices for practical use. It covers the quantum mechanical properties of the hybrid materials, single-dimensional nanotubes, nanowires, semiconductors, and so forth. Well-developed nanoelectronics can be applied in different fields and are especially useful for detecting disease-causing agents and disease biomarkers. As a consequence, point-of-care detection becomes popularized due to the involvement of nanoelectronics. The word photonics comes from the word photon, the building block of light, so we can define the term nanophotonics as the science and engineering of light and light-matter interactions that take place on wavelength and sub-wavelength scales where the chemical or structural nature, physical nature of natural or artificial nanostructured matter controls the interaction.

  • Track 1-1 Optoelectronics and Microelectronics
  • Track 2-2 Photonic & plasmonic nanomaterials
  • Track 3-3 Optical properties of nanostructures
  • Track 4-4 Optics and transport on 2D materials
  • Track 5-5 Nanoscale photo thermal effects
  • Track 6-6 Nano-Optomechanics
  • Track 7-7 Emerging Nanodevices and 3-D ICs
  • Track 8-8 Particle growth and processing in polymer matrix Nanocomposites
  • Track 9-9 Carbon Nanotube Spintronics
  • Track 10-10 Nano electronic Modelling Tool (NEMO)
  • Track 11-11 Use of Nanowire in Nanoelectronics to build interfaces to cells and tissue

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