44.3L: A Printed and Rollable Bistable Electronic Display

  title={44.3L: A Printed and Rollable Bistable Electronic Display},
  author={Paul S. Drzaic and Barrett O. Comiskey and Jonathan Albert and L. Zhang and Andrew Loxley and R. Feeney and John Jacobson},
  journal={SID Symposium Digest of Technical Papers},
The achievement of highly flexible reflective display media has been a persistent goal in the development of electronic displays [1-9]. The advantages of flexible electronic media over glass are clear: improved dura-bility, lighter weight, thinner dimensions, and the ability to integrate the display into curved or flexible devices. Reflective media hold interest over emissive displays due to the potential for low power consumption, simplifying device design. film-based liquid dispersed and… 

Electromechanical Properties of Transparent Conducting Substrates for Flexible Electronic Displays

A mandrel-bending automated test system is developed to evaluate the degradation of flexible anodes in service, and finds that even when the strain is below the virgin cracking threshold, there are measurable changes in ITO resistance.

Appendix A Flat Panel Displays

  • Computer Science
  • 2009
Other than the LCD, the subject of this book, many other types of flat display technologies have been devised such as: PDP (Plasma Display Panel), LED (Light Emitting Diode) OLED (Organic LED), VFD

Conformable displays based on polymer‐dispersed liquid‐crystal materials on flexible substrates

Abstract— We have developed a process that enables one to conform polymer‐dispersed liquid‐crystal (PDLC) displays into a particular shape indefinitely. Planar PDLC displays are first fabricated

Ultra-thin, high-resolution, flexible electronic ink displays addressed by a-Si active-matrix TFT backplanes on stainless steel foil

Ultra-thin, flexible displays were fabricated using electronic ink and a-Si TFT backplanes on stainless steel foil substrates. The fabricated TFTs have a linear mobility of 0.5 cm/sup 2//Vs and an

Continuous color reflective displays using interferometric absorption

A new technology is demonstrated that is described as the single mirror interferometric display that overcomes limitations with pixels whose reflectance properties can tune through a continuum of colors, including high contrast black and white reflectance states.

12.2: A Conformable Electronic Ink Display using a Foil‐Based a‐Si TFT Array

We have fabricated prototype lightweight electronic ink displays on a conformable active‐matrix array sheet. The active matrix arrays were built using amorphous silicon thin film transistors and

High-resolution microencapsulated electrophoretic display (EPD) driven by poly-si TFTs with four-level grayscale

A high-resolution active-matrix microencapsulated electrophoretic display (EPD) driven by polycrystalline-silicon thin-film transistors (poly-Si TFTs) with integrated drivers has been developed for

53.2: Power Consumption of micro‐encapsulated Display for Smart Handheld Applications

A detailed investigation of power consumption of microencapsulated electrophoretic (“electronic ink”) displays for smart handheld applications has been made. It is shown that the most of the power

Enhanced Adhesion and Transmittance Uniformity in Laminated Polymer-Dispersed Liquid Crystal Films

We propose a two-step UV irradiation procedure to fabricate polymer-dispersed liquid crystal (PDLC) films by lamination. During the first UV treatment, before lamination, the UV-curable monomers



Electrophoretic display technology

  • A. L. Dalisa
  • Physics
    IEEE Transactions on Electron Devices
  • 1977
The electrophoretic image display (EPID) is a passive display technique based upon the scattering and absorption of ambient light. This paper will review the present status of EPID technology with

The understanding and elimination of some suspension instabilities in an electrophoretic display

The performance and appearance of an electrophoretic display is strongly dependent on the stability of the colloidal suspension in the device. Two primary degradation modes in a suspension have been

Polymer dispersed nematic liquid crystal for large area displays and light valves

A new electro‐optical material based on nematic liquid crystal dispersed in a polymer matrix has recently been introduced by Fergason. This technology (termed NCAP, for nematic curvilinear aligned

Figure 5. Encapsulated electrophoretic display in rolled state

    SZD Digest Technical Papers

    • 1997