期刊
MATERIALS LETTERS
卷 336, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.matlet.2023.133857
关键词
Colloid nanodots; Surfaces; Photodetectors; Optical properties
Efficient ultraviolet photodetectors are developed by incorporating colloid carbon nanodot (CCND) layers with silicon substrates. The control over CCND thickness is found to improve the photosensing characteristics by investigating the morphologies, microstructure, light absorption, and carrier dynamics. The study shows that 35-nm thick CCNDs coupled with Si exhibit remarkable sensing responsivity of 15.9 A/W and detectivity of 2.94 x 10^14 Jones under 352 nm wavelength detecting lights. The underlying mechanism is attributed to the synergistic contributions from reduced dynamic dark currents and efficient charge separation from CCND/Si heterojunction.
We present the efficient ultraviolet photodetectors made with the incorporation of colloid carbon nanodot (CCND) layers with silicon substrates. By investigating the morphologies, microstructure, light absorption and carrier dynamics, the control over CCND thickness is envisioned for the improvement of photosensing charac-teristics. We find that 35-nm thick CCNDs coupled with Si can reach remarkable sensing responsivity of 15.9 A/ W and detectivity of 2.94 x 1014 Jones under detecting lights with wavelength of 352 nm. The underlying mechanism is interpreted by the synergetic contributions from reduced dynamic dark currents and efficient charge separation from CCND/Si heterojunction.
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