A touchless user interface based on a near-infrared-sensitive transparent optical imager

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Kamijo, T.

Breemen, A.J.J.M.

Ma, X.

Shanmugam, S.

Bel, M.G.J.

Haas, G.J.A.G.F.

Peeters, B.

Petre, A.R.

Tordera, D.

Verbeek, R.G.F.A.

Akkerman, H.B.

Hagelsieb, L.M.

Roose, F. de

Lieberman, I.

Yamaguchi, F.

Janssen, R.A.J.

Meulenkamp, E.A.

Kronemeijer, A.J.

Gelinck, G.H.
Touchless user interfaces that are based on gestures typically rely on near-infrared cameras. However, such systems are often hampered by their limited field of view and high-accuracy calibration requirements. Here we report a touchless user interface that is based on a visually transparent near-infrared-sensitive organic photodetector array and can be used on top of a display. Optical transparency is achieved by using a printed copper grid as a bottom transparent conductive electrode and an array of patterned organic photodetector subpixels. Electro-optical modelling is used to optimize the design of the image sensor, leading to a photodetectivity of approximately 10-12 Jones at 850 nm and a high visible-light transmittance of 70%. We show that the imager can be used as a penlight-controlled and gesture-controlled touchless user interface when combined with a commercial display.
TNO Identifier
986838
Repository link
https://resolver.tno.nl/uuid:721c25b9-b220-4cfc-ba2f-a884886d64b1
Source
Nature electronics
Publisher
Springer Nature
Collation
11 p.
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