InGaN/GaN QWs on tetrahedral structures grown on graphene/SiC
In recent years, flexible nitride LEDs have been developed for applications in fields such as lighting, displays but also medicine and biology. Said nanowire-based flexible LEDs are made of InGaN/GaN core-shell nanowires encapsulated in a polymer matrix, which is peeled off and constitutes the final...
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sg-ntu-dr.10356-1722182023-11-29T06:56:06Z InGaN/GaN QWs on tetrahedral structures grown on graphene/SiC Bosch, Julien Valera, Lucie Mastropasqua, Chiara Michon, Adrien Nemoz, Maud Portail, Marc Zúñiga-Pérez, Jesús Tchernycheva, Maria Alloing, Blandine Durand, Christophe School of Physical and Mathematical Sciences MajuLab, International Research Laboratory IRL 3654, CNRS, Universit´e Cˆote d'Azûr, Sorbonne Universit´e, National University of Singapore, Nanyang Technological University Engineering::Electrical and electronic engineering Science::Physics Graphene Quantum Wells In recent years, flexible nitride LEDs have been developed for applications in fields such as lighting, displays but also medicine and biology. Said nanowire-based flexible LEDs are made of InGaN/GaN core-shell nanowires encapsulated in a polymer matrix, which is peeled off and constitutes the final flexible LED structure. However, the current peel off process is complex and hardly compatible with industrial applications. One solution to this issue could be the Van Der Waals epitaxy of the LED structures on graphene, as this approach is known to ease the separation from the original substrate. However, to realize Van der Waals epitaxy and prevent nucleation of GaN on defects located within the graphene layer, the quality of the graphene needs to be optimized. In this work we employ graphene grown by Chemical Vapor Deposition on SiC, known to be notably less defective than graphene grown on metals or sapphire. In this work, tetrahedral structures of GaN have been grown on monolayer and multilayer graphene on SiC. X-Ray Diffraction measurements confirmed that the GaN followed the crystallographic directions of SiC, implying growth through remote-epitaxy mechanism thanks to the presence of graphene in both cases. Last, InGaN/GaN structures were realized by growth of a 5 period of InGaN/GaN quantum wells on these GaN tetrahedra. Cathodoluminescence as well as photoluminescence measurements revealed the presence of stacking faults and Zinc Blende inclusion, as well as a broad visible emission near 480 nm of quantum wells. We acknowledge support from GANEX (ANR-11-LABX-0014). GANEX belongs to the public funded ‘Investissements d'Avenir’ program managed by the French ANR agency. 2023-11-29T06:56:06Z 2023-11-29T06:56:06Z 2023 Journal Article Bosch, J., Valera, L., Mastropasqua, C., Michon, A., Nemoz, M., Portail, M., Zúñiga-Pérez, J., Tchernycheva, M., Alloing, B. & Durand, C. (2023). InGaN/GaN QWs on tetrahedral structures grown on graphene/SiC. Microelectronic Engineering, 275, 111995-. https://dx.doi.org/10.1016/j.mee.2023.111995 0167-9317 https://hdl.handle.net/10356/172218 10.1016/j.mee.2023.111995 2-s2.0-85151300954 275 111995 en Microelectronic Engineering © 2023 Elsevier B.V. All rights reserved. |
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Engineering::Electrical and electronic engineering Science::Physics Graphene Quantum Wells Bosch, Julien Valera, Lucie Mastropasqua, Chiara Michon, Adrien Nemoz, Maud Portail, Marc Zúñiga-Pérez, Jesús Tchernycheva, Maria Alloing, Blandine Durand, Christophe InGaN/GaN QWs on tetrahedral structures grown on graphene/SiC |
| description |
In recent years, flexible nitride LEDs have been developed for applications in fields such as lighting, displays but also medicine and biology. Said nanowire-based flexible LEDs are made of InGaN/GaN core-shell nanowires encapsulated in a polymer matrix, which is peeled off and constitutes the final flexible LED structure. However, the current peel off process is complex and hardly compatible with industrial applications. One solution to this issue could be the Van Der Waals epitaxy of the LED structures on graphene, as this approach is known to ease the separation from the original substrate. However, to realize Van der Waals epitaxy and prevent nucleation of GaN on defects located within the graphene layer, the quality of the graphene needs to be optimized. In this work we employ graphene grown by Chemical Vapor Deposition on SiC, known to be notably less defective than graphene grown on metals or sapphire. In this work, tetrahedral structures of GaN have been grown on monolayer and multilayer graphene on SiC. X-Ray Diffraction measurements confirmed that the GaN followed the crystallographic directions of SiC, implying growth through remote-epitaxy mechanism thanks to the presence of graphene in both cases. Last, InGaN/GaN structures were realized by growth of a 5 period of InGaN/GaN quantum wells on these GaN tetrahedra. Cathodoluminescence as well as photoluminescence measurements revealed the presence of stacking faults and Zinc Blende inclusion, as well as a broad visible emission near 480 nm of quantum wells. |
| author2 |
School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Bosch, Julien Valera, Lucie Mastropasqua, Chiara Michon, Adrien Nemoz, Maud Portail, Marc Zúñiga-Pérez, Jesús Tchernycheva, Maria Alloing, Blandine Durand, Christophe |
| format |
Article |
| author |
Bosch, Julien Valera, Lucie Mastropasqua, Chiara Michon, Adrien Nemoz, Maud Portail, Marc Zúñiga-Pérez, Jesús Tchernycheva, Maria Alloing, Blandine Durand, Christophe |
| author_sort |
Bosch, Julien |
| title |
InGaN/GaN QWs on tetrahedral structures grown on graphene/SiC |
| title_short |
InGaN/GaN QWs on tetrahedral structures grown on graphene/SiC |
| title_full |
InGaN/GaN QWs on tetrahedral structures grown on graphene/SiC |
| title_fullStr |
InGaN/GaN QWs on tetrahedral structures grown on graphene/SiC |
| title_full_unstemmed |
InGaN/GaN QWs on tetrahedral structures grown on graphene/SiC |
| title_sort |
ingan/gan qws on tetrahedral structures grown on graphene/sic |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/172218 |
| _version_ |
1783955506221547520 |