Journal
SENSORS
Volume 23, Issue 9, Pages -Publisher
MDPI
DOI: 10.3390/s23094385
Keywords
Ta2NiSe5; WSe2; heterostructure; Schottky barrier; photodetection; imaging
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In this paper, a van der Waals heterostructure photodetector based on Ta2NiSe5/WSe2 is presented, utilizing the inherent characteristics of heterostructures. The detector exhibits excellent broad-spectrum detection ability from the visible to the infrared bands at room temperature, achieving an extremely high on/off ratio without the need for an external bias voltage. Additionally, it shows a fast response and low dark currents compared to a pure material detector.
The increasing interest in two-dimensional materials with unique crystal structures and novel band characteristics has provided numerous new strategies and paradigms in the field of photodetection. However, as the demand for wide-spectrum detection increases, the size of integrated systems and the limitations of mission modules pose significant challenges to existing devices. In this paper, we present a van der Waals heterostructure photodetector based on Ta2NiSe5/WSe2, leveraging the inherent characteristics of heterostructures. Our results demonstrate that this detector exhibits excellent broad-spectrum detection ability from the visible to the infrared bands at room temperature, achieving an extremely high on/off ratio, without the need for an external bias voltage. Furthermore, compared to a pure material detector, it exhibits a fast response and low dark currents (similar to 3.6 pA), with rise and fall times of 278 mu s and 283 mu s for the response rate, respectively. Our findings provide a promising method for wide-spectrum detection and enrich the diversity of room-temperature photoelectric detection.
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