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Liquid Phase Exfoliated Indium Selenide Based Highly Sensitive Photodetectors

Nicola Curreli, Michele Serri, Davide Spirito, Emanuele Lago, Elisa Petroni, Beatriz Martín‐García, Antonio Politano, Bekir Gürbulak, S. Duman, Roman Krahne, Vittorio Pellegrini, Francesco Bonaccorso

2020Advanced Functional Materials66 citationsDOI

Abstract

Abstract Layered semiconductors of the IIIA–VIA group have attracted considerable attention in (opto)electronic applications thanks to their atomically thin structures and their thickness‐dependent optical and electronic properties, which promise ultrafast response and high sensitivity. In particular, 2D indium selenide (InSe) has emerged as a promising candidate for the realization of thin‐film field effect transistors and phototransistors due to its high intrinsic mobility (>10 2 cm 2 V −1 s −1 ) and the direct optical transitions in an energy range suitable for visible and near‐infrared light detection. A key requirement for the exploitation of large‐scale (opto)electronic applications relies on the development of low‐cost and industrially relevant 2D material production processes, such as liquid phase exfoliation, combined with the availability of high‐throughput device fabrication methods. Here, a β polymorph of indium selenide (β‐InSe) is exfoliated in isopropanol and spray‐coated InSe‐based photodetectors are demonstrated, exhibiting high responsivity to visible light (maximum value of 274 A W −1 under blue excitation 455 nm) and fast response time (15 ms). The devices show a gate‐dependent conduction with an n‐channel transistor behavior. Overall, this study establishes that liquid phase exfoliated β‐InSe is a valid candidate for printed high‐performance photodetectors, which is critical for the development of industrial‐scale 2D material‐based optoelectronic devices.

Topics & Concepts

Materials sciencePhotodetectorOptoelectronicsResponsivityIndiumExfoliation jointTransistorSemiconductorFabricationSelenideNanotechnologyGrapheneMetallurgyMedicinePhysicsVoltageSeleniumAlternative medicineQuantum mechanicsPathologyPerovskite Materials and Applications2D Materials and ApplicationsMXene and MAX Phase Materials
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