Impact of bias stress and endurance switching on electrical characteristics of polycrystalline ZnO-TFTs with Al2O3 gate dielectric
Impact of bias stress and endurance switching on electrical characteristics of polycrystalline ZnO-TFTs with Al2O3 gate dielectric
This study experimentally investigates electrical characteristics and degradation phenomena in polycrystalline zinc oxide thin-film transistors (ZnO-TFTs). ZnO-TFTs with Al2O3 gate dielectric, Al-doped ZnO (AZO) source–drain contacts, and AZO gate electrode are fabricated using remote plasma-enhanced atomic layer deposition at a maximum process temperature of 190 °C. We employ positive bias stress (PBS), negative bias stress (NBS), and endurance cycling measurements to evaluate the ZnO-TFT performance and examine carrier dynamics at the channel-dielectric interface and at grain boundaries in the polycrystalline channel. DC transfer measurements yield a threshold voltage of −5.95 V, a field-effect mobility of 53.5 cm2/(Vbold dots), a subthreshold swing of 136 mV dec−1, and an on-/off-current ratio above 109. PBS and NBS measurements, analysed using stretched-exponential fitting, reveal the dynamics of carrier trapping and de-trapping between the channel layer and the gate insulator. Carrier de-trapping time is 88 s under NBS at −15 V, compared to 1856 s trapping time under PBS at +15 V. Endurance tests across 109 cycles assess switching characteristics and temporal changes in ZnO-TFTs, focusing on threshold voltage and field-effect mobility. The threshold voltage shift observed during endurance cycling is similar to that of NBS due to the contrast in carrier trapping/de-trapping time. A measured mobility hysteresis of 19% between the forward and reverse measurement directions suggests grain boundary effects mediated by the applied gate bias. These findings underscore the electrical resilience of polycrystalline ZnO-TFTs and the aptitude for 3D heterogeneous integration applications.
Rowlinson, Ben
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Zeng, Jiale
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Patzig, Christian
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Ebert, Martin
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Chong, Harold
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23 October 2024
Rowlinson, Ben
bc965d73-a1d3-4e19-bff3-e57ee4a0acbe
Zeng, Jiale
a76aaa33-5b24-4590-849d-12d8fdd44618
Patzig, Christian
3db7ef1f-6c30-46d3-b478-6b52484a2a81
Ebert, Martin
1a8f1756-d724-4b44-8504-c01f8dc7aa50
Chong, Harold
795aa67f-29e5-480f-b1bc-9bd5c0d558e1
Rowlinson, Ben, Zeng, Jiale, Patzig, Christian, Ebert, Martin and Chong, Harold
(2024)
Impact of bias stress and endurance switching on electrical characteristics of polycrystalline ZnO-TFTs with Al2O3 gate dielectric.
Journal of Physics D: Applied Physics, 58, [025308].
(doi:10.1088/1361-6463/ad8663).
Abstract
This study experimentally investigates electrical characteristics and degradation phenomena in polycrystalline zinc oxide thin-film transistors (ZnO-TFTs). ZnO-TFTs with Al2O3 gate dielectric, Al-doped ZnO (AZO) source–drain contacts, and AZO gate electrode are fabricated using remote plasma-enhanced atomic layer deposition at a maximum process temperature of 190 °C. We employ positive bias stress (PBS), negative bias stress (NBS), and endurance cycling measurements to evaluate the ZnO-TFT performance and examine carrier dynamics at the channel-dielectric interface and at grain boundaries in the polycrystalline channel. DC transfer measurements yield a threshold voltage of −5.95 V, a field-effect mobility of 53.5 cm2/(Vbold dots), a subthreshold swing of 136 mV dec−1, and an on-/off-current ratio above 109. PBS and NBS measurements, analysed using stretched-exponential fitting, reveal the dynamics of carrier trapping and de-trapping between the channel layer and the gate insulator. Carrier de-trapping time is 88 s under NBS at −15 V, compared to 1856 s trapping time under PBS at +15 V. Endurance tests across 109 cycles assess switching characteristics and temporal changes in ZnO-TFTs, focusing on threshold voltage and field-effect mobility. The threshold voltage shift observed during endurance cycling is similar to that of NBS due to the contrast in carrier trapping/de-trapping time. A measured mobility hysteresis of 19% between the forward and reverse measurement directions suggests grain boundary effects mediated by the applied gate bias. These findings underscore the electrical resilience of polycrystalline ZnO-TFTs and the aptitude for 3D heterogeneous integration applications.
Text
Rowlinson_2025_J._Phys._D__Appl._Phys._58_025308
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Accepted/In Press date: 14 October 2024
Published date: 23 October 2024
Identifiers
Local EPrints ID: 496117
URI: http://eprints.soton.ac.uk/id/eprint/496117
ISSN: 1361-6463
PURE UUID: e0f27891-718d-4613-9f10-a106b54d8790
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Date deposited: 04 Dec 2024 17:45
Last modified: 05 Dec 2024 02:42
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Author:
Ben Rowlinson
Author:
Jiale Zeng
Author:
Christian Patzig
Author:
Martin Ebert
Author:
Harold Chong
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