Abstract
In this paper, we report experimental findings on a 4H-SiC-based p-i-n photodiode. The fabricated device has a p-type region formed by ion-implantation of aluminum (Al) in a nitrogen doped n-type layer. The dark reverse current density reaches 38.6 nA/cm2 at −10 V, while the photocurrent density rises to 6.36 µA/cm2 at the same bias under λ = 315 nm ultraviolet (UV) radiation with an incident optical power density of 29.83 μW/cm2. At the wavelength of λ = 285 nm, the responsivity is maximum, 0.168 A/W at 0 V, and 0.204 A/W at −30 V, leading to an external quantum efficiency of 72.7 and 88.3%, respectively. Moreover, the long-term stability of the photodiode performances has been examined after exposing the device under test to several cycles of thermal stress, from 150 up to 350 °C and vice versa. The achieved results prove that the examined high-efficiency UV photodiode also has a stable responsivity if subjected to high temperature variations. The proposed device is fully compatible with the conventional production process of 4H-SiC components.
Highlights
Ultraviolet detectors have significant uses in different areas, from astronomy to combustion control in the automotive industries, etc. [1]
We report the characteristics of an experimental 4H-Silicon Carbide (SiC) p-i-n UV photodiode showing a higher responsivity peak with respect to similar devices that have appeared to date in the literature [15,16,17,18,19,20,21,22]
Awtatvheelewnagvtheleonfgλth= of λ = 285 nm, the photo-response peak is 0.204 A/W at −30 V, providing a better value if compared to those found in the literature, including Schottky photodiode, p-i-n, and more sophisticated bipolar devices
Summary
Ultraviolet detectors have significant uses in different areas, from astronomy to combustion control in the automotive industries, etc. [1]. We report the characteristics of an experimental 4H-SiC p-i-n UV photodiode showing a higher responsivity peak with respect to similar devices that have appeared to date in the literature [15,16,17,18,19,20,21,22].
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