In this contribution we demonstrate an integrated photoactive switch employing a fully-printed planar photodetector and complementary Schmitt trigger. A photoactive switch is fundamental to several light driven systems, such as twilight sensors or industrial machinery control devices. This paper explores a fabrication methodology that enables reliable complementary logic building blocks and photodetectors with a fully-printed, all-polymer approach, resulting in a semi-transparent integrated system on a single plastic foil.

Fully-printed, all-polymer integrated twilight switch

DELL'ERBA, GIORGIO;PERINOT, ANDREA;GRIMOLDI, ANDREA;NATALI, DARIO ANDREA NICOLA;
2015-01-01

Abstract

In this contribution we demonstrate an integrated photoactive switch employing a fully-printed planar photodetector and complementary Schmitt trigger. A photoactive switch is fundamental to several light driven systems, such as twilight sensors or industrial machinery control devices. This paper explores a fabrication methodology that enables reliable complementary logic building blocks and photodetectors with a fully-printed, all-polymer approach, resulting in a semi-transparent integrated system on a single plastic foil.
2015
fully printed, all organic, twilight switch, schmitt trigger, printed electronics,integrated system, printed circuit
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11311/965709
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