Wafer-scale fabrication of nitrogen-doped reduced graphene oxide with enhanced quaternary-n for high-performance photodetection
We demonstrated a simple and scalable fabrication route of a nitrogen-doped reduced graphene oxide (N-rGO) photodetector on an 8 in. wafer-scale. The N-rGO was prepared through in situ plasma treatment in an acetylene-ammonia atmosphere to achieve an n-type semiconductor with substantial formation o...
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2019
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my.utm.873832020-11-08T03:55:51Z http://eprints.utm.my/id/eprint/87383/ Wafer-scale fabrication of nitrogen-doped reduced graphene oxide with enhanced quaternary-n for high-performance photodetection Mohammad Haniff, Muhammad Aniq Shazni Zainal Ariffin, Nur Hamizah Hafiz, Syed Muhammad Poh, Choon Ooi Syono, Mohd. Ismahadi Hashim, Abdul Manaf Q Science (General) TP Chemical technology We demonstrated a simple and scalable fabrication route of a nitrogen-doped reduced graphene oxide (N-rGO) photodetector on an 8 in. wafer-scale. The N-rGO was prepared through in situ plasma treatment in an acetylene-ammonia atmosphere to achieve an n-type semiconductor with substantial formation of quaternary-N substituted into the graphene lattice. The morphology, structural, chemical composition, and electrical properties of the N-rGO were carefully characterized and used for the device fabrication. The N-rGO devices were fabricated in a simple metal-semiconductor-metal structure with unconventional metal-on-bottom configuration to promote high-performance photodetection. The N-rGO devices exhibited enhanced photoresponsivity as high as 0.68 A W -1 at 1.0 V, which is about 2 orders of magnitude higher compared to a pristine graphene and wide-band photoinduced response from the visible to the near-infrared region with increasing sensitivity in the order of 785, 632.8, and 473 nm excitation wavelengths. We also further demonstrated a symmetric characteristic of the photoinduced response to any position of local laser excitation with respect to the electrodes. The excellent features of wafer-scale N-rGO devices suggest a promising route to merge the current silicon technology and two-dimensional materials for future optoelectronic devices. American Chemical Society 2019-01-30 Article PeerReviewed Mohammad Haniff, Muhammad Aniq Shazni and Zainal Ariffin, Nur Hamizah and Hafiz, Syed Muhammad and Poh, Choon Ooi and Syono, Mohd. Ismahadi and Hashim, Abdul Manaf (2019) Wafer-scale fabrication of nitrogen-doped reduced graphene oxide with enhanced quaternary-n for high-performance photodetection. ACS Applied Materials and Interfaces, 11 (4). pp. 4625-4636. ISSN 1944-8244 http://dx.doi.org/10.1021/acsami.8b19043 DOI:10.1021/acsami.8b19043 |
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Q Science (General) TP Chemical technology Mohammad Haniff, Muhammad Aniq Shazni Zainal Ariffin, Nur Hamizah Hafiz, Syed Muhammad Poh, Choon Ooi Syono, Mohd. Ismahadi Hashim, Abdul Manaf Wafer-scale fabrication of nitrogen-doped reduced graphene oxide with enhanced quaternary-n for high-performance photodetection |
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We demonstrated a simple and scalable fabrication route of a nitrogen-doped reduced graphene oxide (N-rGO) photodetector on an 8 in. wafer-scale. The N-rGO was prepared through in situ plasma treatment in an acetylene-ammonia atmosphere to achieve an n-type semiconductor with substantial formation of quaternary-N substituted into the graphene lattice. The morphology, structural, chemical composition, and electrical properties of the N-rGO were carefully characterized and used for the device fabrication. The N-rGO devices were fabricated in a simple metal-semiconductor-metal structure with unconventional metal-on-bottom configuration to promote high-performance photodetection. The N-rGO devices exhibited enhanced photoresponsivity as high as 0.68 A W -1 at 1.0 V, which is about 2 orders of magnitude higher compared to a pristine graphene and wide-band photoinduced response from the visible to the near-infrared region with increasing sensitivity in the order of 785, 632.8, and 473 nm excitation wavelengths. We also further demonstrated a symmetric characteristic of the photoinduced response to any position of local laser excitation with respect to the electrodes. The excellent features of wafer-scale N-rGO devices suggest a promising route to merge the current silicon technology and two-dimensional materials for future optoelectronic devices. |
| format |
Article |
| author |
Mohammad Haniff, Muhammad Aniq Shazni Zainal Ariffin, Nur Hamizah Hafiz, Syed Muhammad Poh, Choon Ooi Syono, Mohd. Ismahadi Hashim, Abdul Manaf |
| author_facet |
Mohammad Haniff, Muhammad Aniq Shazni Zainal Ariffin, Nur Hamizah Hafiz, Syed Muhammad Poh, Choon Ooi Syono, Mohd. Ismahadi Hashim, Abdul Manaf |
| author_sort |
Mohammad Haniff, Muhammad Aniq Shazni |
| title |
Wafer-scale fabrication of nitrogen-doped reduced graphene oxide with enhanced quaternary-n for high-performance photodetection |
| title_short |
Wafer-scale fabrication of nitrogen-doped reduced graphene oxide with enhanced quaternary-n for high-performance photodetection |
| title_full |
Wafer-scale fabrication of nitrogen-doped reduced graphene oxide with enhanced quaternary-n for high-performance photodetection |
| title_fullStr |
Wafer-scale fabrication of nitrogen-doped reduced graphene oxide with enhanced quaternary-n for high-performance photodetection |
| title_full_unstemmed |
Wafer-scale fabrication of nitrogen-doped reduced graphene oxide with enhanced quaternary-n for high-performance photodetection |
| title_sort |
wafer-scale fabrication of nitrogen-doped reduced graphene oxide with enhanced quaternary-n for high-performance photodetection |
| publisher |
American Chemical Society |
| publishDate |
2019 |
| url |
http://eprints.utm.my/id/eprint/87383/ http://dx.doi.org/10.1021/acsami.8b19043 |
| _version_ |
1683230759899365376 |
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13.160551 |