Effect of donor on the performance of self-powered UV photodiodes based on solution-processed TPD:Alq3 and NPD:Alq3 active layers
In this work, the impact of donor material on the optical and photodiode response is revealed by comparing the performance of self-powered photodiodes based on D:Alq3 (D=TPD or NPD) composite. The active layers were fabricated from solution-processed composites using the wellknown spin coating techn...
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my.um.eprints.264152022-02-28T06:29:39Z http://eprints.um.edu.my/26415/ Effect of donor on the performance of self-powered UV photodiodes based on solution-processed TPD:Alq3 and NPD:Alq3 active layers Mahmoud, Alaa Y. Sulaiman, Khaulah Bahabry, Rabab R. Alzahrani, Hanan QC Physics In this work, the impact of donor material on the optical and photodiode response is revealed by comparing the performance of self-powered photodiodes based on D:Alq3 (D=TPD or NPD) composite. The active layers were fabricated from solution-processed composites using the wellknown spin coating technique, followed by their optical and electrical characterizations. The photodiodes were utilized for the UV light detection in a self-powered mode, in which no external power is required, but it is generated through the photovoltaic effect. Results showed that the NPD film has provided a broader and more intensive optical absorption towards the UV light compared to that of TPD. Also, photoluminescence quenching in the NPD:Alq3 composite was found to highly outperform that of the TPD:Alq3. These were ascribed to the effect of extra pi conjugated bonds present in the NPD, which are originated from the aromatic rings. Consequently, the NPD:Alq3 photodiodes presented a respective sensitivity, responsivity and detectivity of 1.3x105, 1.07 mA/W and 5.25x1011 Jones at 0 V. Moreover, the response (0.34 s) and recovery time (0.28 s) of these devices were found to be smaller compared to those reported in literature. Elsevier 2021-10 Article PeerReviewed Mahmoud, Alaa Y. and Sulaiman, Khaulah and Bahabry, Rabab R. and Alzahrani, Hanan (2021) Effect of donor on the performance of self-powered UV photodiodes based on solution-processed TPD:Alq3 and NPD:Alq3 active layers. Optik, 244. ISSN 0030-4026, DOI https://doi.org/10.1016/j.ijleo.2021.167538 <https://doi.org/10.1016/j.ijleo.2021.167538>. 10.1016/j.ijleo.2021.167538 |
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QC Physics Mahmoud, Alaa Y. Sulaiman, Khaulah Bahabry, Rabab R. Alzahrani, Hanan Effect of donor on the performance of self-powered UV photodiodes based on solution-processed TPD:Alq3 and NPD:Alq3 active layers |
| description |
In this work, the impact of donor material on the optical and photodiode response is revealed by comparing the performance of self-powered photodiodes based on D:Alq3 (D=TPD or NPD) composite. The active layers were fabricated from solution-processed composites using the wellknown spin coating technique, followed by their optical and electrical characterizations. The photodiodes were utilized for the UV light detection in a self-powered mode, in which no external power is required, but it is generated through the photovoltaic effect. Results showed that the NPD film has provided a broader and more intensive optical absorption towards the UV light compared to that of TPD. Also, photoluminescence quenching in the NPD:Alq3 composite was found to highly outperform that of the TPD:Alq3. These were ascribed to the effect of extra pi conjugated bonds present in the NPD, which are originated from the aromatic rings. Consequently, the NPD:Alq3 photodiodes presented a respective sensitivity, responsivity and detectivity of 1.3x105, 1.07 mA/W and 5.25x1011 Jones at 0 V. Moreover, the response (0.34 s) and recovery time (0.28 s) of these devices were found to be smaller compared to those reported in literature. |
| format |
Article |
| author |
Mahmoud, Alaa Y. Sulaiman, Khaulah Bahabry, Rabab R. Alzahrani, Hanan |
| author_facet |
Mahmoud, Alaa Y. Sulaiman, Khaulah Bahabry, Rabab R. Alzahrani, Hanan |
| author_sort |
Mahmoud, Alaa Y. |
| title |
Effect of donor on the performance of self-powered UV photodiodes based on solution-processed TPD:Alq3 and NPD:Alq3 active layers |
| title_short |
Effect of donor on the performance of self-powered UV photodiodes based on solution-processed TPD:Alq3 and NPD:Alq3 active layers |
| title_full |
Effect of donor on the performance of self-powered UV photodiodes based on solution-processed TPD:Alq3 and NPD:Alq3 active layers |
| title_fullStr |
Effect of donor on the performance of self-powered UV photodiodes based on solution-processed TPD:Alq3 and NPD:Alq3 active layers |
| title_full_unstemmed |
Effect of donor on the performance of self-powered UV photodiodes based on solution-processed TPD:Alq3 and NPD:Alq3 active layers |
| title_sort |
effect of donor on the performance of self-powered uv photodiodes based on solution-processed tpd:alq3 and npd:alq3 active layers |
| publisher |
Elsevier |
| publishDate |
2021 |
| url |
http://eprints.um.edu.my/26415/ |
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1735409409751777280 |