Electronic skin technology
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35 x 25 cm, 300 dpi, 900 KB
Artist impression of future applications e-skin technology.
Photo: Philips
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12.5 x 9 cm, 300 dpi, 350 KB
Artist impression of future applications e-skin technology.
Photo: Philips
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18 x 14 cm, 300 dpi, 500 KB
Artist impression of future applications e-skin technology.
Photo: Philips
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19 x 13 cm, 300 dpi, 400 KB
Artist impression of future applications e-skin technology.
Photo: Philips
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11 x 8 cm, 300 dpi, 200 KB
Artist impression of future applications e-skin technology.
Photo: Philips
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23 x 35 cm, 300 dpi, 1 MB
Similar to paper, Philips e-skin has a paint-like appearance.
Photo: Philips
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41 x 28 cm, 300 dpi, 2.5 MB
Similar to paper, Philips e-skin has a paint-like appearance.
Photo: Philips
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28 x 21 cm, 300 dpi, 2.5 MB
Philips’ technology allows different colors of ink to be
built into one layer with each color controlled separately.
Photo: Philips
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38 x 26cm, 300 dpi, 1.5 MB
Philips e-skin technology features a gradient of grey
levels from a highly transparent optical state (left) to
full black (right). This enables future applications
like smart windows.
Photo: Philips
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24 x 11 cm, 300 dpi, 1 MB
A full-color e-skin could be created from two layers,
each with two colors of ink. Here, only the yellow and
magenta inks are showing making the pixel appear red.
Photo: Philips
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