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Novel flexible reflective color media with electronic inks
Koch, Tim,Yeo, Jong-Souk,Zhou, Zhang-Lin,Liu, Qin,Mabeck, Jeff,Combs, Gregg,Korthuis, Vincent,Hoffman, Randy,Benson, Brad,Henze, Dick The Korean Infomation Display Society 2011 Journal of information display Vol.12 No.1
A novel architecture and proprietary electronic inks were developed to provide disruptive digital-media solutions based on an electrokinetic technology platform. The flexible reflective electronic media (eMedia) was fabricated by imprinting three-dimensional microscale structures with a roll-to-roll manufacturing platform. The HP technologies enable the required attributes for eMedia, such as low power, transparency, print-quality color, continuous levels of gray, and lowcost scalability. Pixelation was also demonstrated by integrating with the prototype oxide thin-film transistor backplane, and the system architecture was further developed by stacking primary-colorant layers for color reflective-display application. The innovations described in this paper are currently being developed further for the eSkins, eSignage, and ePaper applications.
Novel flexible reflective color media with electronic inks
Tim Koch,여종석,Zhang-Lin Zhou,Qin Liu,Jeff Mabeck,Gregg Combs,Vincent Korthuis,Randy Hoffman,Brad Benson,Dick Henze 한국정보디스플레이학회 2011 Journal of information display Vol.12 No.1
A novel architecture and proprietary electronic inks were developed to provide disruptive digital-media solutions based on an electrokinetic technology platform. The flexible reflective electronic media (eMedia) was fabricated by imprinting three-dimensional microscale structures with a roll-to-roll manufacturing platform. The HP technologies enable the required attributes for eMedia, such as low power, transparency, print-quality color, continuous levels of gray, and lowcost scalability. Pixelation was also demonstrated by integrating with the prototype oxide thin-film transistor backplane,and the system architecture was further developed by stacking primary-colorant layers for color reflective-display application. The innovations described in this paper are currently being developed further for the eSkins, eSignage, and ePaper applications.