Title :
Inkjet Printable Flexible Thin-Film NCQD Photodetectors on Unmodified Transparency Films
Author :
Jingda Wu ; Lin, Lih Y.
Author_Institution :
Dept. of Electr. Eng., Univ. of Washington, Seattle, WA, USA
Abstract :
We proposed and experimentally demonstrated a cost-efficient and easy-to-fabricate flexible thin-film nanocrystal quantum dot (NCQD) photodetector, by sandwiching a piece of NCQD-soaked tracing paper between two PEDOT:PSS electrodes. The highly conductive and transparent multilayer polymer electrodes are printed with an office inkjet printer without further patterning on commercial unmodified transparency films. The tracing paper is able to act as both the bed for NCQD attachment and the interspacing layer to prevent short-circuiting in vertical devices. Consistent increase in device performance is observed when the bending radius becomes smaller. Linear I-V characteristics are obtained, which show our device structure works as a photoconductor.
Keywords :
conducting polymers; electrodes; ink jet printing; nanostructured materials; paper; photodetectors; quantum dots; thin films; NCQD-soaked tracing paper; PEDOT:PSS electrodes; bending radius; device performance; flexible thin-film nanocrystal quantum dot photodetector; highly conductive polymer electrodes; inkjet printable flexible thin-film NCQD photodetectors; linear I-V characteristics; photoconductor; transparent multilayer polymer electrodes; unmodified transparency films; Electrodes; Films; Performance evaluation; Photodetectors; Printers; Printing; Inkjet printing; flexible structures; photoconducting devices; quantum dots; thin film devices;
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2014.2305983
