In search for an organic material suitable for the detection of near-infrared electromagnetic radiation and at the same time capable of air stable operation of related devices, so to address the many applications envisaged with this technology (remote control, chemical/biological sensing, optical communication, spectroscopic and medical instruments), we explore the performance of a blend of hydrazone end-capped symmetric squaraines and phenyl C61 butyric acid methyl ester. We succeed in developing air stable solution-processed devices with external quantum efficiency in the NIR as high as 3.5% and response times of few hundreds of nanoseconds. Essential to these achievements has been a detailed characterization of the devices performed by correlating the optoelectronic performances to the morphology of the layers (extracted from AFM measurements) and to the charge carrier mobility (extracted from transistor structures), enabling their optimization at the chemical level, by tailoring the squaraine substitution pattern, and at the device level, by tuning the blend composition. We show that a good balance between holes and electrons mobility is essential for high EQE and fast response speed, and that a smooth morphology is mandatory to achieve long term air stability and operability with no need for encapsulation. © 2009 Elsevier B.V. All rights reserved.

Binda, M., Agostinelli, T., Caironi, M., Natali, D., Sampietro, M., Beverina, L., et al. (2009). Fast and air stable near-infrared organic detector based on squaraine dyes. ORGANIC ELECTRONICS, 10(7), 1314-1319 [10.1016/j.orgel.2009.07.011].

Fast and air stable near-infrared organic detector based on squaraine dyes

BEVERINA, LUCA;RUFFO, RICCARDO;SILVESTRI, FABIO
2009

Abstract

In search for an organic material suitable for the detection of near-infrared electromagnetic radiation and at the same time capable of air stable operation of related devices, so to address the many applications envisaged with this technology (remote control, chemical/biological sensing, optical communication, spectroscopic and medical instruments), we explore the performance of a blend of hydrazone end-capped symmetric squaraines and phenyl C61 butyric acid methyl ester. We succeed in developing air stable solution-processed devices with external quantum efficiency in the NIR as high as 3.5% and response times of few hundreds of nanoseconds. Essential to these achievements has been a detailed characterization of the devices performed by correlating the optoelectronic performances to the morphology of the layers (extracted from AFM measurements) and to the charge carrier mobility (extracted from transistor structures), enabling their optimization at the chemical level, by tailoring the squaraine substitution pattern, and at the device level, by tuning the blend composition. We show that a good balance between holes and electrons mobility is essential for high EQE and fast response speed, and that a smooth morphology is mandatory to achieve long term air stability and operability with no need for encapsulation. © 2009 Elsevier B.V. All rights reserved.
Articolo in rivista - Articolo scientifico
photodetectors
English
2009
10
7
1314
1319
none
Binda, M., Agostinelli, T., Caironi, M., Natali, D., Sampietro, M., Beverina, L., et al. (2009). Fast and air stable near-infrared organic detector based on squaraine dyes. ORGANIC ELECTRONICS, 10(7), 1314-1319 [10.1016/j.orgel.2009.07.011].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/15943
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