) nanodisks that switch between insulator and metal states to control color and contrast at the nanoscale.
: The technology is positioned for use in immersive virtual reality systems and high-resolution displays.
Video‐rate tunable colour electronic paper with human resolution
: Supports full-color video at rates exceeding 25 Hz.
The video file 5e9368163935f6708e3bf_source.mp4 is a supplementary file for the research paper titled published in Nature on October 22, 2025. Paper Summary
The specific .mp4 file you mentioned typically serves as a demonstration of the or the high-resolution capabilities discussed in the study.
The paper describes a breakthrough in technology, which achieves pixel densities of over 25,000 pixels per inch—approaching the limit of human visual resolution. Key features of this technology include: Nanoscale Metapixels : Uses tungsten trioxide ( WO3cap W cap O sub 3
5e9368163935f6708e3bf_source.mp4 -
) nanodisks that switch between insulator and metal states to control color and contrast at the nanoscale.
: The technology is positioned for use in immersive virtual reality systems and high-resolution displays. 5e9368163935f6708e3bf_source.mp4
Video‐rate tunable colour electronic paper with human resolution ) nanodisks that switch between insulator and metal
: Supports full-color video at rates exceeding 25 Hz. The video file 5e9368163935f6708e3bf_source
The video file 5e9368163935f6708e3bf_source.mp4 is a supplementary file for the research paper titled published in Nature on October 22, 2025. Paper Summary
The specific .mp4 file you mentioned typically serves as a demonstration of the or the high-resolution capabilities discussed in the study.
The paper describes a breakthrough in technology, which achieves pixel densities of over 25,000 pixels per inch—approaching the limit of human visual resolution. Key features of this technology include: Nanoscale Metapixels : Uses tungsten trioxide ( WO3cap W cap O sub 3