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High‐Performance P‐Channel Tin Halide Perovskite Thin Film Transistor Utilizing a 2D–3D Core–Shell Structure

Junghwan Kim, Yu‐Shien Shiah, Kihyung Sim, Soshi Iimura, Katsumi Abe, Masatake Tsuji, Masato Sasase, Hideo Hosono

2021Advanced Science53 citationsDOIOpen Access PDF

Abstract

Abstract Metal halide perovskites (MHPs) are plausible candidates for practical p‐type semiconductors. However, in thin film transistor (TFT) applications, both 2D PEA 2 SnI 4 and 3D FASnI 3 MHPs have different drawbacks. In 2D MHP, the TFT mobility is seriously reduced by grain‐boundary issues, whereas 3D MHP has an uncontrollably high hole density, which results in quite a large threshold voltage ( V th ). To overcome these problems, a new concept based on a 2D–3D core–shell structure is herein proposed. In the proposed structure, a 3D MHP core is fully isolated by a 2D MHP, providing two desirable effects as follows. (i) V th can be independently controlled by the 2D component, and (ii) the grain‐boundary resistance is significantly improved by the 2D/3D interface. Moreover, SnF 2 additives are used, and they facilitate the formation of the 2D/3D core–shell structure. Consequently, a high‐performance p‐type Sn‐based MHP TFT with a field‐effect mobility of ≈25 cm 2 V −1 s −1 is obtained. The voltage gain of a complementary metal oxide semiconductor (CMOS) inverter comprising an n‐channel InGaZnO x TFT and a p‐channel Sn‐MHP TFT is ≈200 V/V at V DD = 20 V. Overall, the proposed 2D/3D core–shell structure is expected to provide a new route for obtaining high‐performance MHP TFTs.

Topics & Concepts

Thin-film transistorMaterials scienceOptoelectronicsTransistorPerovskite (structure)Grain boundaryThreshold voltageElectron mobilitySemiconductorHalideVoltageNanotechnologyLayer (electronics)Electrical engineeringCrystallographyChemistryComposite materialInorganic chemistryEngineeringMicrostructurePerovskite Materials and ApplicationsZnO doping and propertiesOrganic Electronics and Photovoltaics
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