Add to ORKGThis work studies organic bulk heterojunction photodiodes with a wide spectral range capable of imaging out to 1.3 μm in the shortwave infrared. Adjustment of the donor-to-acceptor (polymer:fullerene) ratio shows how blend composition affects the density of states (DOS) which connects materials composition and optoelectronic properties and provides insight into features relevant to understanding dispersive transport and recombination in the narrow bandgap devices. Capacitance spectroscopy and transient photocurrent measurements indicate the main recombination mechanisms arise from deep traps and poor extraction from accumulated space charges. The amount of space charge is reduced with a decreasing acceptor concentration; however, this reduc...
The ability of a light-sensor to detect fast variation in incident light intensity is a vital featur...
A highly sensitive short-wave infrared (SWIR, λ > 1000 nm) organic photodiode (OPD) is described bas...
Infrared (IR) photodetection (0.9–15 μm) has many appealing applications in imaging, telecommunicati...
This work studies organic bulk heterojunction photodiodes with a wide spectral range capable of imag...
p\u3eWhile only few organic photodiodes have photoresponse past 1 µm, novel shortwave infrared (SWIR...
Trap states in organic semiconductors are notoriously detrimental to the performance of organic elec...
We investigate bulk heterojunction organic photodetectors with unbalanced charge carrier mobilities ...
AbstractTo achieve high detectivity in infrared detectors, it is critical to reduce the device noise...
Organic bulk heterojunction photodiodes (OPDs) attract attention for sensing and imaging. Their dete...
The motto of University of California is “let there be light.” But how do we know whether there is l...
A low-cost and scalable short-wavelength infrared (SWIR: λ = 1–3 μm) photosensor will be widely depl...
Bulk heterojunction photodiodes are fabricated using a new donor-acceptor polymer with a near-infrar...
In this work, we presented experimental observation on solution-processed bulk heterojunction organi...
This work examines an additive approach that increases dielectric screening to overcome performance ...
This work studied a series of infrared detectors comprised of organic bulk heterojunctions to explai...
The ability of a light-sensor to detect fast variation in incident light intensity is a vital featur...
A highly sensitive short-wave infrared (SWIR, λ > 1000 nm) organic photodiode (OPD) is described bas...
Infrared (IR) photodetection (0.9–15 μm) has many appealing applications in imaging, telecommunicati...
This work studies organic bulk heterojunction photodiodes with a wide spectral range capable of imag...
p\u3eWhile only few organic photodiodes have photoresponse past 1 µm, novel shortwave infrared (SWIR...
Trap states in organic semiconductors are notoriously detrimental to the performance of organic elec...
We investigate bulk heterojunction organic photodetectors with unbalanced charge carrier mobilities ...
AbstractTo achieve high detectivity in infrared detectors, it is critical to reduce the device noise...
Organic bulk heterojunction photodiodes (OPDs) attract attention for sensing and imaging. Their dete...
The motto of University of California is “let there be light.” But how do we know whether there is l...
A low-cost and scalable short-wavelength infrared (SWIR: λ = 1–3 μm) photosensor will be widely depl...
Bulk heterojunction photodiodes are fabricated using a new donor-acceptor polymer with a near-infrar...
In this work, we presented experimental observation on solution-processed bulk heterojunction organi...
This work examines an additive approach that increases dielectric screening to overcome performance ...
This work studied a series of infrared detectors comprised of organic bulk heterojunctions to explai...
The ability of a light-sensor to detect fast variation in incident light intensity is a vital featur...
A highly sensitive short-wave infrared (SWIR, λ > 1000 nm) organic photodiode (OPD) is described bas...
Infrared (IR) photodetection (0.9–15 μm) has many appealing applications in imaging, telecommunicati...