AI Article Synopsis

  • Researchers developed a new type of organic phototransistor by altering the chemical composition of a co-polymer to achieve better charge transport and crystallinity.
  • The switch from sulfur to oxygen in the polymer's structure increases electron affinity and allows for better ambipolar (both positive and negative charge transport) performance.
  • The resulting device shows impressive sensitivity and can function effectively as a near-infrared detector with high responsiveness and gain enhancements when exposed to light.*

Article Abstract

Solution-processed high-performing ambipolar organic phototransistors (OPTs) can enable low-cost integrated circuits. Here, a heteroatom engineering approach to modify the electron affinity of a low band gap diketopyrrolopyrole (DPP) co-polymer, resulting in well-balanced charge transport, a more preferential edge-on orientation and higher crystallinity, is demonstrated. Changing the comonomer heteroatom from sulfur (benzothiadiazole (BT)) to oxygen (benzooxadiazole (BO)) leads to an increased electron affinity and introduces higher ambipolarity. Organic thin film transistors fabricated from the novel PDPP-BO exhibit charge carrier mobility of 0.6 and 0.3 cm Vs⁻ for electrons and holes, respectively. Due to the high sensitivity of the PDPP-based material and the balanced transport in PDPP-BO, its application as an NIR detector in an OPT architecture is presented. By maintaining a high on/off ratio (9 × 10), ambipolar OPTs are shown with photoresponsivity of 69 and 99 A W⁻ and specific detectivity of 8 × 10 for the p-type operation and 4 × 10 Jones for the n-type regime. The high symmetric NIR-ambipolar OPTs are also evaluated as ambipolar photo-inverters, and show a 46% gain enhancement under illumination.

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Source
http://dx.doi.org/10.1002/adma.202402568DOI Listing

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