2008
DOI: 10.1016/j.mee.2008.01.005
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Correlation between barrier heights and ideality factors of H-terminated Sn/p-Si(100) Schottky barrier diodes

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Cited by 33 publications
(16 citation statements)
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“…Ideality factors greater than 1.0 indicate that the transport properties are not well modeled by thermionic emission alone although the contacts remain rectifying [48]. Explanations for the deviation of the ideality factor from unit ranged from assumptions of a generation-recombination current in the space-charge region [5,8,17] to interface dielectric layers to field emission [17] to thermionic field emission [49] due to secondary mechanisms at the interface [30,50]. For example, interface defects may lead to a lateral inhomogeneous distribution of BHs at the interface, resulting in the presence of a wide distribution of low-SBH patches and in excess current leading to a deviation from ideal thermionic emission behavior at low voltages and temperatures.…”
Section: Resultsmentioning
confidence: 99%
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“…Ideality factors greater than 1.0 indicate that the transport properties are not well modeled by thermionic emission alone although the contacts remain rectifying [48]. Explanations for the deviation of the ideality factor from unit ranged from assumptions of a generation-recombination current in the space-charge region [5,8,17] to interface dielectric layers to field emission [17] to thermionic field emission [49] due to secondary mechanisms at the interface [30,50]. For example, interface defects may lead to a lateral inhomogeneous distribution of BHs at the interface, resulting in the presence of a wide distribution of low-SBH patches and in excess current leading to a deviation from ideal thermionic emission behavior at low voltages and temperatures.…”
Section: Resultsmentioning
confidence: 99%
“…It is only in the past decade that an inhomogeneous contact has been considered as an explanation for a voltagedependent BH [12][13][14][15][16]. Boyarbay et al [17] suggested that the recent motivation for studying Schottky barrier formation is due to the recognition that both electronic and chemical equilibria have to be considered together across a reactive interface between a metal and a semiconductor, as surface states and metal-induced states fail to take into consideration the chemical equilibrium at the interface. The chemical equilibrium will result in an interfacial atomic rearrangement, interdiffusion, and inter-metallic compound formation, which should have a profound effect on the electronic equilibrium producing the Schottky barrier [18].…”
Section: Introductionmentioning
confidence: 99%
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