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High-Performance Broadband Phototransistor Based on TeO<sub><i>x</i></sub>/IGTO Heterojunctions

Hongwei Xu, Taikyu Kim, Heesung Han, Min Jae Kim, Jae Seok Hur, Cheol Hee Choi, Joon‐Hyuk Chang, Jae Kyeong Jeong

2022ACS Applied Materials & Interfaces21 citationsDOI

Abstract

Ultraviolet to infrared broadband spectral detection capability is a technological challenge for sensing materials being developed for high-performance photodetection. In this work, we stacked 9 nm-thick tellurium oxide (TeOx) and 8 nm-thick InGaSnO (IGTO) into a heterostructure at a low temperature of 150 °C. The superior photoelectric characteristics we achieved benefit from the intrinsic optical absorption range (300–1500 nm) of the hexagonal tellurium (Te) phase in the TeOx film, and photoinduced electrons are driven effectively by band alignment at the TeOx/IGTO interface under illumination. A photosensor based on our optimized heterostructure exhibited a remarkable detectivity of 1.6 × 1013 Jones, a responsivity of 84 A/W, and a photosensitivity of 1 × 105, along with an external quantum efficiency of 222% upon illumination by blue light (450 nm). Simultaneously, modest detection properties (responsivity: ∼31 A/W, detectivity: ∼6 × 1011 Jones) for infrared irradiation at 970 nm demonstrate that this heterostructure can be employed as a broadband phototransistor. Furthermore, its low-temperature processability suggests that our proposed concept might be used to design array optoelectronic devices for wide band detection with high sensitivity, flexibility, and stability.

Topics & Concepts

Materials scienceOptoelectronicsHeterojunctionResponsivityPhotodiodePhotodetectorPhotodetectionPhotoelectric effectTelluriumInfraredSpecific detectivityUltravioletOpticsPhysicsMetallurgyGas Sensing Nanomaterials and SensorsGa2O3 and related materialsTransition Metal Oxide Nanomaterials
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