1/f Noise in Mott Variable Range Hopping Conduction in p-type Amorphous Silicon

We report measurements of low-frequency electronic noise in ordered superlattice, weaklyordered and random-packed thin films of 6.5 nm PbSe quantum dots prepared using several different ligand chemistries. For all samples, the normalized noise spectral density of the dark current revealed a Lorentzian component, reminiscent of the generation-recombination noise, superimposed on the 1/f background (f is the frequency). An activation energy of ~0.3 eV was extracted from the temperature dependence of the noise spectra. The noise level in the ordered films was lower than that in the weakly-ordered and random-packed films. A large variation in the magnitude of the noise spectral density was also observed in samples with different ligand treatments. The obtained results are important for application of colloidal quantum dot films in photodetectors.

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Structural Variation and Its Influence on the 1/fNoise of a-Si_1−xRu_xThin Films Embedded with Nanocrystals

Wang

Zhong

Simoen

et al. 2019

Chinese Phys. Lett.

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The structural variation and its influence on the 1/𝑓 noise of a-Si1−𝑥Ru𝑥 thin films are investigated by Raman spectroscopy, transmission electron microscopy, and low frequency noise measurement. The Ru atoms are introduced into the amorphous silicon thin films by rf magnetron co-sputtering. Ru2Si nanocrystals are found in the as-deposited samples. It is shown that the 1/𝑓 noise of the films can be reduced by a slight doping with Ru atoms. Moreover, both the microstructure and the 1/𝑓 noise performance of a-Si1−𝑥Ru𝑥 thin films could be improved through a high-temperature annealing treatment.

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1/f Noise in Mott Variable Range Hopping Conduction in p-type Amorphous Silicon

Cited by 3 publications

References 8 publications

Room-Temperature Infrared Focal Plane Array Performance

Room-Temperature Infrared Focal Plane Array Performance

Low-frequency electronic noise in superlattice and random-packed thin films of colloidal quantum dots

Structural Variation and Its Influence on the 1/fNoise of a-Si_1−xRu_xThin Films Embedded with Nanocrystals

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1/f Noise in Mott Variable Range Hopping Conduction in p-type Amorphous Silicon

Cited by 3 publications

References 8 publications

Room-Temperature Infrared Focal Plane Array Performance

Room-Temperature Infrared Focal Plane Array Performance

Low-frequency electronic noise in superlattice and random-packed thin films of colloidal quantum dots

Structural Variation and Its Influence on the 1/fNoise of a-Si1−xRuxThin Films Embedded with Nanocrystals

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Product

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Structural Variation and Its Influence on the 1/fNoise of a-Si_1−xRu_xThin Films Embedded with Nanocrystals