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Enhanced Energy Storage Performance Through Electron‐Hole Pair Formation in Polymer Matrices Doped with P‐Type Molecular Semiconductor

Tao Liu, Yang Liu, Jin Qian, Jiwei Zhai, Tao Zhou, Yao Zhou, Di‐Ming Xu, Wenfeng Liu, Di Zhou

2025Advanced Functional Materials6 citationsDOI

Abstract

Abstract Dielectric polymers used for electrostatic energy storage often exhibit considerable performance deterioration at elevated temperatures, which restricts their use in electronic devices and components operating under harsh conditions. Herein, a fully organic composite material incorporating a p‐type organic molecular semiconductor, pentacene (PT), into a polyetherimide (PEI) matrix is reported. The introduction of PT facilitates the formation of electron‐hole (E‐H) pairs at the heterojunction interfaces between PT and PEI polymer chains, thereby suppressing charge carrier mobility within the polymer matrix. This effect leads to enhanced high‐temperature breakdown strength ( E b ) and energy storage performance (ESP) of the composite films. At 25 °C, the composite achieves a high E b of ≈763.9 MV·m −1 and excellent energy storage properties, including an energy density ( U d ) of ≈10.5 J·cm −3 and a charge‐discharge efficiency ( η ) of ≈94.9%. At 150 °C, the E b increases from 472.8 MV·m −1 for pristine PEI to 683.6 MV·m −1 , while U d reaches a peak value of 7.35 J·cm −3 and η remains above 90%. This study proposes a straightforward and efficient approach for developing polymer dielectrics that function reliably in harsh environments.

Topics & Concepts

Materials sciencePolyetherimidePolymerSemiconductorPentaceneEnergy storageOrganic semiconductorDopingDielectricComposite numberHeterojunctionElectron mobilityCharge carrierOptoelectronicsNanotechnologyChemical engineeringChemical physicsComposite materialThermodynamicsThin-film transistorPhysicsEngineeringLayer (electronics)Power (physics)Dielectric materials and actuatorsAdvanced Sensor and Energy Harvesting MaterialsFerroelectric and Piezoelectric Materials
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