The strain transfer behavior of graphene and black phosphorus heterostructure on fexible substrates plays a crucial role in the functionality and regulation of the device.Specifically,it is imperative to investigate t...The strain transfer behavior of graphene and black phosphorus heterostructure on fexible substrates plays a crucial role in the functionality and regulation of the device.Specifically,it is imperative to investigate the anisotropy associated with strain transfer at the black phosphorus interface.In this study,a sample transfer method was proposed to prevent the contact of black phosphorus with water,achieving monolayer graphene and few-layer black phosphorus heterostructures on a PET flm substrate.Micro-Raman spectroscopy was used to measure the strain of graphene and black phosphorus when the PET flm substrate was under uniaxial tensile loading along the zigzag and armchair directions of black phosphorus,respectively.The Raman shift-strain relationship of black phosphorus was derived,and an interface transfer model was developed for the heterostructure.Based on the model,the strain transfer efficiency of each measuring spot was calculated and the strain transfer mechanism of each layer was analyzed.The results uncover the influence of the anisotropic interlayer properties inside the black phosphorus on the strain transfer behavior in the heterostructure on the flexible substrate.展开更多
基金supported by the National Natural Science Foundation of China(Grant Nos.12125203,12021002,and 12041201).
文摘The strain transfer behavior of graphene and black phosphorus heterostructure on fexible substrates plays a crucial role in the functionality and regulation of the device.Specifically,it is imperative to investigate the anisotropy associated with strain transfer at the black phosphorus interface.In this study,a sample transfer method was proposed to prevent the contact of black phosphorus with water,achieving monolayer graphene and few-layer black phosphorus heterostructures on a PET flm substrate.Micro-Raman spectroscopy was used to measure the strain of graphene and black phosphorus when the PET flm substrate was under uniaxial tensile loading along the zigzag and armchair directions of black phosphorus,respectively.The Raman shift-strain relationship of black phosphorus was derived,and an interface transfer model was developed for the heterostructure.Based on the model,the strain transfer efficiency of each measuring spot was calculated and the strain transfer mechanism of each layer was analyzed.The results uncover the influence of the anisotropic interlayer properties inside the black phosphorus on the strain transfer behavior in the heterostructure on the flexible substrate.
