3D touchless multiorder reflection structural color sensing display

A 3D touchless display is created where a human finger position is visualized in structural colors of a soft photonic crystal. The development of a lightweight, low-power, user-interactive three-dimensional (3D) touchless display in which a human stimulus can be detected and simultaneously visualize...

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Veröffentlicht in:Science advances 2020-07, Vol.6 (30), p.eabb5769-eabb5769
Hauptverfasser: Kang, Han Sol, Han, Sang Won, Park, Chanho, Lee, Seung Won, Eoh, Hongkyu, Baek, Jonghyeok, Shin, Dong-Gap, Park, Tae Hyun, Huh, June, Lee, Hyungsuk, Kim, Dae-Eun, Ryu, Du Yeol, Thomas, Edwin L., Koh, Won-Gun, Park, Cheolmin
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Sprache:eng
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Zusammenfassung:A 3D touchless display is created where a human finger position is visualized in structural colors of a soft photonic crystal. The development of a lightweight, low-power, user-interactive three-dimensional (3D) touchless display in which a human stimulus can be detected and simultaneously visualized in noncontact mode is of great interest. Here, we present a user-interactive 3D touchless sensing display based on multiorder reflection structural colors (SCs) of a thin, solid-state block copolymer (BCP) photonic crystal (PC). Full-visible-range SCs are developed in a BCP PC consisting of alternating lamellae, one of which contains a chemically cross-linked, interpenetrated hydrogel network. The absorption of a nonvolatile ionic liquid into the domains of the interpenetrated network allows for further manipulation of SC by using multiple-order photonic reflections, giving rise to unprecedented visible SCs arising from reflective color mixing. Furthermore, by using a hygroscopic ionic liquid ink, a printable 3D touchless interactive display is created where 3D position of a human finger is efficiently visualized in different SCs as a function of finger-to-display distance.
ISSN:2375-2548
2375-2548
DOI:10.1126/sciadv.abb5769