Boosting Responsivity of Organic–Metal Oxynitride Hybrid Heterointerface Phototransistor

Amorphous metal oxides are attractive materials for various sensor applications, because of high electrical performance and easy processing. However, low absorption coefficient, slow photoresponse, and persistent photoconductivity of amorphous metal oxide films from the origin of deep-level defects...

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Bibliographic Details
Published in:ACS applied materials & interfaces 2016-06, Vol.8 (23), p.14665-14670
Main Authors: Rim, You Seung, Ok, Kyung-Chul, Yang, Yang Michael, Chen, Huajun, Bae, Sang-Hoon, Wang, Chen, Huang, Yu, Park, Jin-Seong, Yang, Yang
Format: Article
Language:English
Subjects:
absorption
dissociation
photonics
photons
polymers
ultraviolet radiation
zinc oxide
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Summary:Amorphous metal oxides are attractive materials for various sensor applications, because of high electrical performance and easy processing. However, low absorption coefficient, slow photoresponse, and persistent photoconductivity of amorphous metal oxide films from the origin of deep-level defects are obstacles to their use as photonic applications. Here, we demonstrate ultrahigh photoresponsivity of organic–inorganic hybrid phototransistors featuring bulk heterojunction polymers and low-bandgap zinc oxynitride. Spontaneous formation of ultrathin zinc oxide on the surface of zinc oxynitride films could make an effective band-alignment for electron transfer from the dissociation of excitons in the bulk heterojunction, while holes were blocked by the deep highest occupied molecular orbital level of zinc oxide. These hybrid structure-based phototransistors are ultrasensitive to broad-bandwidth photons in ultraviolet to near-infrared regions. The detectivity and a linear dynamic range exceeded 1012 Jones and 122.3 dB, respectively.
ISSN:1944-8244
1944-8252
1944-8252
DOI:10.1021/acsami.6b02814