Insight into OTFT Sensors Using Confocal Fluorescence Microscopy
Description
Confocal fluorescence microscopy provides a means to map charge carrier density within the semiconductor layer in an active organic thin film transistor (OTFT). This method exploits the inverse relationship between charge carrier density and photoluminescence (PL) intensity in OTFTs, originating from exciton quenching following exciton-charge energy transfer. This work demonstrates that confocal microscopy can be a simple yet effective approach to gain insight into doping and de-doping processes in OTFT sensors. Specifically, the mechanisms of hydrogen peroxide sensitivity are studied in low-voltage hygroscopic insulator field effect transistors (HIFETs). While the sensitivity of HIFETs to hydrogen peroxide is well known, the underlying mechanisms remain poorly understood. Using confocal microscopy, new light is shed on these mechanisms. Two distinct doping processes are discerned: one that occurs throughout the semiconductor film, independent of applied voltages; and a stronger doping effect occurring near the source electrode, when acting as an anode with respect to a negatively polarized drain electrode. These insights offer important guidance to future studies and the optimization of HIFET-based sensors. More importantly, the methods reported here are broadly applicable to the study of a range of OTFT-based sensors. This work demonstrates that confocal microscopy can be an effective research tool in this field.
Impact and interest:
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| ID Code: | 229750 | ||||
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| Item Type: | Contribution to Journal (Journal Article) | ||||
| Refereed: | Yes | ||||
| ORCID iD: |
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| Additional Information: | Funding Information: J.N.A.’s work was supported through an Australian Government Research Training Program Scholarship. J.N.A. would like to thank Endeavour Research Leadership Program for funding to spend time at Queens University, Kingston, Canada. Device fabrication and testing were performed at the Central Analytical Research Facility (CARF) at the Queensland University of Technology (QUT). | ||||
| Measurements or Duration: | 12 pages | ||||
| Keywords: | confocal microscopy, fluorescence, hygroscopic insulator field-effect transistors, OTFT, sensors | ||||
| DOI: | 10.1021/acsami.1c20143 | ||||
| ISSN: | 1944-8244 | ||||
| Pure ID: | 108320289 | ||||
| Divisions: | Current > Research Centres > Centre for Materials Science Current > Research Centres > Centre for a Waste Free World Current > Research Centres > Centre for Biomedical Technologies Current > QUT Faculties and Divisions > Faculty of Science Current > Schools > School of Chemistry & Physics Current > QUT Faculties and Divisions > Faculty of Engineering Current > Schools > School of Electrical Engineering & Robotics |
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| Funding Information: | J.N.A.’s work was supported through an Australian Government Research Training Program Scholarship. J.N.A. would like to thank Endeavour Research Leadership Program for funding to spend time at Queens University, Kingston, Canada. Device fabrication and testing were performed at the Central Analytical Research Facility (CARF) at the Queensland University of Technology (QUT). | ||||
| Copyright Owner: | 2022 American Chemical Society | ||||
| Copyright Statement: | This work is covered by copyright. Unless the document is being made available under a Creative Commons Licence, you must assume that re-use is limited to personal use and that permission from the copyright owner must be obtained for all other uses. If the document is available under a Creative Commons License (or other specified license) then refer to the Licence for details of permitted re-use. It is a condition of access that users recognise and abide by the legal requirements associated with these rights. If you believe that this work infringes copyright please provide details by email to qut.copyright@qut.edu.au | ||||
| Deposited On: | 14 Apr 2022 01:44 | ||||
| Last Modified: | 29 Feb 2024 12:12 |
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