Surface plasmons - optics on the nanoscale
Kris Myny
imec, Belgium

Tue., Feb. 14, 2017, 5 p.m.


Metal-oxide thin-film transistor technologies find today their application in display products acting as active component in backplanes to drive LCD or OLED frontplanes. These transistors implemented in a thin-film transistor circuit are also ideally suited for next generation connected products that embed such low-cost, flexible, ultrathin circuits in everyday items. Item-level Internet-of-Things applications are therefore the main driving force for the research on metal-oxide RFID circuits. In this lecture, we will discuss the current state-of-the-art of thin-film RFID tags, including the first product prototype together with our partner company Cartamundi. In addition, we will discuss the roadmap to upscaled manufacturing and the next generation thin-film circuit activities.



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Surface plasmons - optics on the nanoscale
Kris Myny
imec, Belgium

Tue., Feb. 14, 2017, 5 p.m.


Metal-oxide thin-film transistor technologies find today their application in display products acting as active component in backplanes to drive LCD or OLED frontplanes. These transistors implemented in a thin-film transistor circuit are also ideally suited for next generation connected products that embed such low-cost, flexible, ultrathin circuits in everyday items. Item-level Internet-of-Things applications are therefore the main driving force for the research on metal-oxide RFID circuits. In this lecture, we will discuss the current state-of-the-art of thin-film RFID tags, including the first product prototype together with our partner company Cartamundi. In addition, we will discuss the roadmap to upscaled manufacturing and the next generation thin-film circuit activities.



Share