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Low-Temperature-Crystallized Ga<sub>2</sub>O<sub>3</sub> Thin Films and Their TFT-Type Solar-Blind Photodetectors

Yu Pei, Lingyan Liang, Xiaolong Wang, Zhenhua Wang, Hengbo Zhang, Junyan Ren, Hongtao Cao

2022The Journal of Physical Chemistry Letters17 citationsDOI

Abstract

Crystalline Ga2O3 (c-Ga2O3) is a promising candidate for next-generation solar-blind photodetectors (SBPDs) but is suffering from high processing temperatures. Herein, seed-induced engineering is proposed via adopting Zn as an induced metal for crystallizing Ga2O3, lowering the processing temperature by 200 °C. After annealing, the Zn/Ga2O3 consists of an inner Ga2O3 layer of a monoclinic crystalline phase, top ZnO crystals coming from Zn oxidation, and a thin corundum Ga2O3 layer between them, which implies a “seed-induced” crystallization mechanism besides the nonequilibrium chaotic state caused by the traditional electron transfer one. As a result, the tailored c-Ga2O3 thin-film transistor-type SBPD with enhanced packing density and finite oxygen deficiency demonstrates a satisfactory responsivity of 8.6 A/W and also an ultrahigh UVC/visible rejection ratio (R254/R450) of 2 × 105. The seed-induced engineering forecasts its potential application in crystalline Ga2O3 SBPDs under a relatively low processing temperature.

Topics & Concepts

Thin-film transistorMaterials scienceAnnealing (glass)CrystallizationPhotodetectorThin filmResponsivityMonoclinic crystal systemOptoelectronicsLayer (electronics)NanotechnologyCrystallographyChemical engineeringMetallurgyChemistryCrystal structureEngineeringGa2O3 and related materialsZnO doping and propertiesAdvanced Photocatalysis Techniques