Min Jung-Hong, Li Kuang-Hui, Kim Yong-Hyeon, Min Jung-Wook, Kang Chun Hong, Kim Kyoung-Ho, Lee Jae-Seong, Lee Kwang Jae, Jeong Seong-Min, Lee Dong-Seon, Bae Si-Young, Ng Tien Khee, Ooi Boon S
Photonics Laboratory, Computer, Electrical and Mathematical Sciences and Engineering Division (CEMSE), King Abdullah University of Science and Technology (KAUST), Thuwal 23955-6900, Saudi Arabia.
Energy and Environmental Division, Korea Institute of Ceramic Engineering and Technology, Jinju 52851, Korea.
ACS Appl Mater Interfaces. 2021 Mar 24;13(11):13410-13418. doi: 10.1021/acsami.1c01042. Epub 2021 Mar 12.
Epitaxial growth using graphene (GR), weakly bonded by van der Waals force, is a subject of interest for fabricating technologically important semiconductor membranes. Such membranes can potentially offer effective cooling and dimensional scale-down for high voltage power devices and deep ultraviolet optoelectronics at a fraction of the bulk-device cost. Here, we report on a large-area β-GaO nanomembrane spontaneous-exfoliation (1 cm × 1 cm) from layers of compressive-strained epitaxial graphene (EG) grown on SiC, and demonstrated high-responsivity flexible solar-blind photodetectors. The EG was favorably influenced by lattice arrangement of SiC, and thus enabled β-GaO direct-epitaxy on the EG. The β-GaO layer was spontaneously exfoliated at the interface of GR owing to its low interfacial toughness by controlling the energy release rate through electroplated Ni layers. The use of GR templates contributes to the seamless exfoliation of the nanomembranes, and the technique is relevant to eventual nanomembrane-based integrated device technology.
利用通过范德华力弱结合的石墨烯(GR)进行外延生长,是制造具有重要技术意义的半导体膜的一个研究热点。这种膜有可能以远低于体器件的成本,为高压功率器件和深紫外光电子器件提供有效的散热和尺寸缩小。在此,我们报道了从生长在碳化硅上的压缩应变外延石墨烯(EG)层自发剥离出大面积(1厘米×1厘米)的β-GaO纳米膜,并展示了高响应性的柔性日盲光电探测器。EG受到碳化硅晶格排列的有利影响,从而实现了β-GaO在EG上的直接外延。通过电镀镍层控制能量释放速率,由于β-GaO层界面韧性低,它在GR界面处自发剥离。GR模板的使用有助于纳米膜的无缝剥离,并且该技术与最终基于纳米膜的集成器件技术相关。
