Hopping-randomwalk of electrons at localized band tail states in random fractal fluctuation

AbstractVariable temperature electrical measurement is well-established and used for determining the conduction mechanism in semiconductors. There is a Meyer¡VNeldel relationship between the activation energy and the prefactor with a Meyer¡VNeldel energy of 30.03 meV, which corresponds well with the isokinetic temperature of about 350 K. Therefore, the multiple trapping and release model is properly used to explain the thermally activated phenomenon. By the method, an exponential distribution of traps is assumed to be a better representation of trap states in band tail. Samples with higher temperature during measurement are observed to show better mobility, higher on-current and lower resistance, which agree well with the multiple trapping and release model proposed to explain the conduction mechanism in pentacene-based OTFTs.

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How band tail recombination influences the open‐circuit voltage of solar cells

Progress in Photovoltaics Research and Applications ◽

10.1002/pip.3449 ◽

2021 ◽

Author(s):

Max Hilaire Wolter ◽

Romain Carron ◽

Enrico Avancini ◽

Benjamin Bissig ◽

Thomas Paul Weiss ◽

...

Keyword(s):

Solar Cells ◽

Open Circuit Voltage ◽

Open Circuit ◽

Band Tail

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Fine-Structured Red-Band Tail Photoluminescence (PL) Spectra of Nanocrystalline CdS:In Thin Films

JOM ◽

10.1007/s11837-021-04607-z ◽

2021 ◽

Author(s):

Shadia J. Ikhmayies

Keyword(s):

Thin Films ◽

Band Tail ◽

Pl Spectra

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Influence of the Distribution of Tail States in a-Si:H on the Field Dependence of Carrier Drift Mobilities

MRS Proceedings ◽

10.1557/proc-808-a5.6 ◽

2004 ◽

Vol 808 ◽

Cited By ~ 1

Author(s):

Monica Brinza ◽

Evguenia V. Emelianova ◽

André Stesmans ◽

Guy J. Adriaenssens

Keyword(s):

Field Dependence ◽

Carrier Mobility ◽

Transport Model ◽

Chemical Vapor ◽

Gaussian Component ◽

Dispersive Transport ◽

Exponential Distributions ◽

Band Tail ◽

Multiple Trapping ◽

Gaussian Density

ABSTRACTExponential distributions of tail states have been able, within the framework of a multiple-trapping transport model, to account rather well for the time-of-flight photoconductivity transients that are measured with ‘standard’ a-Si:H, i.e. material prepared by plasma-enhanced chemical vapor deposition at ∼250°C. A field-dependent carrier mobility in the dispersive transport regime is part of the observations. However, samples prepared in an expanding thermal plasma, although still exhibiting the dispersive transients, fail to show this field dependence. The presence of a Gaussian component in the density of valence-band tail states can account for such behavior for the hole transients. Nanoscale ordered inclusions in the amorphous matrix are thought to be responsible for the Gaussian density of states contribution.

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