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Hybrid area emitting transistors: solution processable and with high aperture ratios: supplementary information

The University of Queensland
Associate Professor Ebinazar Namdas (Aggregated by) Associate Professor Ebinazar Namdas (Aggregated by) Dr Fatemeh Maasoumi (Aggregated by) Dr Mujeeb Ullah (Aggregated by) Mr Khalid Muhieddine (Aggregated by)
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ctx_ver=Z39.88-2004&rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Adc&rfr_id=info%3Asid%2FANDS&rft_id=info:doi10.14264/uql.2016.912&rft.title=Hybrid area emitting transistors: solution processable and with high aperture ratios: supplementary information&rft.identifier=10.14264/uql.2016.912&rft.publisher=The University of Queensland&rft.description=1. MATERIALS AND METHODS Materials used in this study – Table S1 ZTO morphology and electrical characteristics – Figure S1, S2 2. OPTICAL AND ELECTRICAL PROPERTIES OF THE ORGANIC EMISSIVE MATERIALS Molecular structures of the emissive materials – Figure S3 EL and PL of the emissive materials – Figure S4 CIE Coordinates of emissive materials – Figure S5 Area Emission in SY, F8BT and PFO interdigitated devices – Figure S6 Device schematics, energy diagrams and working principles – Figure S7 Calculation of HOMO/LUMO for SY, F8BT and PFO – Figure S8 and Table S2 3. DEVICE CHARACTERISTICS Measurement of ZTO and ZTO/PEIE workfunction using KPFM – Figure S9 HLETs (control) using F8BT and PFO as the active layer – Figure S10, S11 Transmission spectrum for drain electrode – Figure S12 Comparison with literature values – Table S3&rft.creator=Associate Professor Ebinazar Namdas&rft.creator=Associate Professor Ebinazar Namdas&rft.creator=Dr Fatemeh Maasoumi&rft.creator=Dr Mujeeb Ullah&rft.creator=Mr Khalid Muhieddine&rft.creator=Professor Paul Burn&rft.creator=Professor Paul Burn&rft.date=2015&rft.coverage=153.050537,-27.44979&rft_rights=2015, The University of Queensland&rft_rights= https://guides.library.uq.edu.au/deposit-your-data/license-reuse-data-agreement&rft_subject=eng&rft_subject=Actove-matrix organic light-emitting diodes&rft_subject=Displays&rft_subject=Light-emitting transistors&rft_subject=Organic light-emitting diodes (OLEDs)&rft_subject=Organic transistors&rft_subject=Soft Condensed Matter&rft_subject=PHYSICAL SCIENCES&rft_subject=CONDENSED MATTER PHYSICS&rft_subject=Microelectronics and Integrated Circuits&rft_subject=ENGINEERING&rft_subject=ELECTRICAL AND ELECTRONIC ENGINEERING&rft_subject=Molecular and Organic Electronics&rft_subject=TECHNOLOGY&rft_subject=NANOTECHNOLOGY&rft.type=dataset&rft.language=English Access the data
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1. MATERIALS AND METHODS Materials used in this study – Table S1 ZTO morphology and electrical characteristics – Figure S1, S2 2. OPTICAL AND ELECTRICAL PROPERTIES OF THE ORGANIC EMISSIVE MATERIALS Molecular structures of the emissive materials – Figure S3 EL and PL of the emissive materials – Figure S4 CIE Coordinates of emissive materials – Figure S5 Area Emission in SY, F8BT and PFO interdigitated devices – Figure S6 Device schematics, energy diagrams and working principles – Figure S7 Calculation of HOMO/LUMO for SY, F8BT and PFO – Figure S8 and Table S2 3. DEVICE CHARACTERISTICS Measurement of ZTO and ZTO/PEIE workfunction using KPFM – Figure S9 HLETs (control) using F8BT and PFO as the active layer – Figure S10, S11 Transmission spectrum for drain electrode – Figure S12 Comparison with literature values – Table S3

Issued: 2015

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153.05054,-27.44979

153.050537,-27.44979

Subjects
Actove-matrix organic light-emitting diodes | Condensed Matter Physics | Displays | Electrical and Electronic Engineering | Engineering | Light-emitting transistors | Microelectronics and Integrated Circuits | Molecular and Organic Electronics | Nanotechnology | Organic light-emitting diodes (OLEDs) | Organic transistors | Physical Sciences | Soft Condensed Matter | Technology | eng |

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Hybrid area-emitting transistors: solution processable and with high aperture ratios

local : UQ:373977

Muhieddine, Khalid, Ullah, Mujeeb, Maasoumi, Fatemeh, Burn, Paul L. and Namdas, Ebinazar B. (2015). Hybrid area-emitting transistors: solution processable and with high aperture ratios. Advanced Materials, 27 (42), 6677-6682. doi: 10.1002/adma.201502554

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local : UQ:289097

School of Mathematics and Physics

local : UQ:161065

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