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Insulating Electrets Converted from Organic Semiconductor for High‐Performance Transistors, Memories, and Artificial Synapses

Dongfan Li, Ning An, Kai Tan, Yurong Ren, Hong Wang, Shengtao Li, Qian Deng, Jianwei Song, Laju Bu, Guanghao Lu

2023Advanced Functional Materials27 citationsDOIOpen Access PDF

Abstract

Abstract Electrets are commonly used charged insulators that generate a quasi‐permanent electric field. However, when conventional electrets come into direct contact with semiconductors, the energy level mismatch at the interface results in low memory speed and high energy consumption of electret devices due to both charge injection and storage being non‐conducive. To address this, the n‐type semiconductor N,N′‐dioctyl‐3,4,9,10‐perylene tetracarboxylic diimide (C 8 ‐PTCDI) is converted to C 8 ‐PTCDI (D) via oxygen degradation. The resulting C 8 ‐PTCDI (D) electrets, when charged using an electric field and/or light, retain the energy level of the n‐type semiconductors to facilitate charge trapping. They also exhibit deeper trap energy levels and increased trap density, thereby enhancing the sheet charge density of C 8 ‐PTCDI (D) electrets (7.47 × 10 12 cm −2 ). As a result, devices based on n‐type electrets demonstrate lower operation voltage (2 V) of transistors, lower operation voltage (20 V) of memories, and lower energy consumption (3.5 fJ per spike) of artificial synapses compared to those without n‐type electrets.

Topics & Concepts

ElectretMaterials scienceOptoelectronicsOrganic semiconductorDiimideTransistorElectric fieldSemiconductorCharge carrierPeryleneVoltageNanotechnologyElectrical engineeringComposite materialPhysicsOpticsQuantum mechanicsEngineeringFluorescenceAdvanced Memory and Neural ComputingSemiconductor materials and devicesOrganic Electronics and Photovoltaics
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