E. Guziewicz scite author profile

We report on the electrical properties of thin film transistors based on zinc oxide (ZnO) layers grown by low temperature (100–170°C) atomic layer deposition. As evidenced through Hall effect measurements, a drastic decrease of the carrier concentration occurred for ZnO films grown at 100°C. Time of flight–secondary ions mass spectroscopy analysis revealed that this decrease is associated with an increase of the hydroxide groups in the ZnO layer which suppressed oxygen vacancy formation. Transistors fabricated from ZnO films grown at 100°C exhibit a high Ion∕Ioff ratio (∼107) and an encouraging intrinsic channel mobility (∼1cm2∕Vs).

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ALD grown zinc oxide with controllable electrical properties

Guziewicz¹,

Godlewski²,

Wachnicki³

et al. 2012

Semicond. Sci. Technol.

144

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The paper presents results for zinc oxide films grown at low temperature regime by Atomic Layer Deposition (ALD). We discuss electrical properties of such films and show that low temperature deposition results in oxygen-rich ZnO layers in which free carrier concentration is very low. For optimized ALD process it can reach the level of 10 15 cm -3 , while mobility of electrons is between 20 and 50 cm 2 /V·s. Electrical parameters of ZnO films deposited by ALD at low temperature regime are appropriate for constructing of the ZnO-based p-n and Schottky junctions. We demonstrate that such junctions are characterized by the rectification ratio high enough to fulfill requirements of 3D memories and are deposited at temperature 100 o C which makes them appropriate for deposition on organic substrates.

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ZnO grown by atomic layer deposition: A material for transparent electronics and organic heterojunctions

et al. 2009

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We report on zinc oxide thin films grown by atomic layer deposition at a low temperature, which is compatible with a low thermal budget required for some novel electronic devices. By selecting appropriate precursors and process parameters, we were able to obtain films with controllable electrical parameters, from heavily n-type to the resistive ones. Optimization of the growth process together with the low temperature deposition led to ZnO thin films, in which no defect-related photoluminescence bands are observed. Such films show anticorrelation between mobility and free-electron concentration, which indicates that low n electron concentration is a result of lower number of defects rather than the self-compensation effect.

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E. Guziewicz

Electrical behavior of zinc oxide layers grown by low temperature atomic layer deposition

ALD grown zinc oxide with controllable electrical properties

ZnO grown by atomic layer deposition: A material for transparent electronics and organic heterojunctions

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