Infrared organic photodetectors employing ultralow bandgap polymer and non‐fullerene acceptors for biometric monitoring
Recent efforts in the field of organic photodetectors (OPD) have been focused on extending
broadband detection into the near‐infrared (NIR) region. Here, two blends of an ultralow …
broadband detection into the near‐infrared (NIR) region. Here, two blends of an ultralow …
Water-based solar cells over 10% efficiency: designing soft nanoparticles for improved processability
Organic semiconductors are typically dissolved in organic solvents that are harmful to
human health and the environment. To overcome this issue, these materials can be …
human health and the environment. To overcome this issue, these materials can be …
Remarkable Isomer Effect on the Performance of Fully Non‐Fused Non‐Fullerene Acceptors in Near‐Infrared Organic Photodetectors
Two fully non‐fused small‐molecule acceptors BTIC‐1 and BTIC‐2 are reported for
application in near‐infrared organic photodetectors (NIR OPDs). Both acceptors contain the …
application in near‐infrared organic photodetectors (NIR OPDs). Both acceptors contain the …
Toward High Efficiency Water Processed Organic Photovoltaics: Controlling the Nanoparticle Morphology with Surface Energies
Here efficient organic photovoltaic devices fabricated from water‐based colloidal
dispersions with donor: acceptor composite nanoparticles achieving up to 9.98% power …
dispersions with donor: acceptor composite nanoparticles achieving up to 9.98% power …
Diazapentalene-containing ultralow-band-gap copolymers for high-performance near-infrared organic phototransistors
Because of the limited availability of synthetic strategies and strong acceptor units,
constructing new types of low-band-gap donor–acceptor-type copolymers for use in multiple …
constructing new types of low-band-gap donor–acceptor-type copolymers for use in multiple …
Solution‐Processed Ternary Organic Photodetectors with Ambipolar Small‐Bandgap Polymer for Near‐Infrared Sensing
Organic photodetectors (OPDs) detecting light in the near‐infrared (NIR) range from 900 to
1200 nm offer numerous applications in biomedical imaging and health monitoring …
1200 nm offer numerous applications in biomedical imaging and health monitoring …
From P‐type to N‐type: Peripheral fluorination of axially substituted silicon phthalocyanines enables fine tuning of charge transport
Abstract Silicon phthalocyanines (R2‐SiPcs) are a family of promising tunable materials for
organic electronic applications. We report the chemistry of the synthesis of axially substituted …
organic electronic applications. We report the chemistry of the synthesis of axially substituted …
Novel SHAL base derived cobalt containing organic semiconducting metallogel thin film for self-powered high-performance photodetector application
The development of new materials with facile synthesis and better semiconducting and
photonic properties is crucial for the fabrication of durable thin film-based semiconductor …
photonic properties is crucial for the fabrication of durable thin film-based semiconductor …
A novel selenophene based non-fullerene acceptor for near-infrared organic photodetectors with ultra-low dark current
Near-infrared organic photodetectors (OPDs) have great potential in many applications.
However, the high dark current of many OPD devices tends to limit their specific detectivity …
However, the high dark current of many OPD devices tends to limit their specific detectivity …
Enhanced sub-1 eV detection in organic photodetectors through tuning polymer energetics and microstructure
One of the key challenges facing organic photodiodes (OPDs) is increasing the detection
into the infrared region. Organic semiconductor polymers provide a platform for tuning the …
into the infrared region. Organic semiconductor polymers provide a platform for tuning the …