Title :
IR Sensor Based on Low Bandgap Organic Photodiode With Up-Converting Phosphor
Author :
Kettle, Jeff ; Shu-Wei Chang ; Horie, Masaki
Author_Institution :
Sch. of Electron., Bangor Univ., Bangor, UK
Abstract :
We report an infrared (IR) sensor which is fabricated by integrating a PCPDTBT:PCBM organic photodiode (OPD) with an up-converting (UC) phosphor. The UC phosphor extends the response range by absorbing incoming light with a wavelength of 986 nm and re-emitting at 804 nm, which is a wavelength that can be absorbed by the active layer, resulting in a generation of a photocurrent. In order to ensure low reverse bias leakage current, PEDOT:PSS was not used as a hole transporting layer, which reduced reverse leakage current by two orders of magnitude compared with conventional hole transporting layers. An IR-emitting laser diode (with emission at 986 nm) is used as a light source to illuminate the sensor. The results demonstrate the proof of principle of sensing using polymer-based OPDs in the near-IR, with wider applications possible in areas, such as telecommunications or sensors if different UC phosphors are applied.
Keywords :
infrared detectors; leakage currents; optical polymers; organic semiconductors; phosphors; photodetectors; photodiodes; photoemission; semiconductor lasers; IR sensor; IR-emitting laser diode; PCPDTBT:PCBM organic photodiode; UC phosphor; light source; low bandgap organic photodiode; photocurrent generation; polymer-based OPD; reverse bias leakage current reduction; up-converting phosphor; Dark current; Diode lasers; Materials; Optical sensors; Phosphors; Photodiodes; Infrared imaging; Optical detectors; Optical sensors; Organic semiconductors; optical detectors; optical sensors; organic semiconductors;
Journal_Title :
Sensors Journal, IEEE
DOI :
10.1109/JSEN.2015.2394744
