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Ambipolar Charge Transport in <i>p</i>-Type Cyclopentadithiophene-Based Polymer Semiconductors Enabled by D–A–A–D Configuration

Hyeonjin Yoo, Mingi Sung, Hyungju Ahn, D. K. Yang, Jin Soo Yoo, Junghoon Lee, Byoung Hoon Lee

2023Chemistry of Materials15 citationsDOI

Abstract

Polymer semiconductors with hysteresis-free ambipolar charge transport characteristics are key elements for developing high-performance organic field-effect transistors and circuits. In this study, a new and facile strategy of simply reconfiguring the donor (D) and acceptor (A) moieties in the order D–A–A–D in the repeat units was proposed to prepare D–A-type polymer semiconductors with enhanced electron and hole mobilities and hysteresis-free transistor characteristics. In contrast to the conventional D–A-type polymer semiconductor based on cyclopentadithiophene (CDT) and pyridyl-2,1,3-thiadiazole (PT) (hereafter, PCDTPT), the newly developed polymer with CDT–PT–PT–CDT configuration (hereafter, PCPPC) exhibited hysteresis-free transistor characteristics and enhanced electron and hole mobilities of 0.41 and 1.50 cm 2 V –1 s –1, respectively. Such improvements were attributed to the deepened conduction band edge of PCPPC compared with that of its D–A-type counterpart, PCDTPT. Owing to the improved ambipolar charge-transport characteristics, the organic complementary metal-oxide semiconductor inverters fabricated with the PCPPC charge transporting layers exhibited a remarkably high gain of greater than 165. Our results provided a simple but effective strategy for designing high-performance ambipolar polymer semiconductors.

Topics & Concepts

Ambipolar diffusionSemiconductorMaterials scienceCharge carrierTransistorOrganic semiconductorHysteresisOptoelectronicsPolymerField-effect transistorAcceptorNanotechnologyElectronCondensed matter physicsElectrical engineeringPhysicsVoltageQuantum mechanicsEngineeringComposite materialOrganic Electronics and PhotovoltaicsConducting polymers and applicationsAdvanced Memory and Neural Computing