2020
DOI: 10.1002/smtd.202000919
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Strain Engineering in 2D Material‐Based Flexible Optoelectronics

Abstract: Flexible optoelectronics, as promising components hold shape‐adaptive features and dynamic strain response under strain engineering for various intelligent applications. 2D materials with atomically thin layers are ideal for flexible optoelectronics because of their high flexibility and strain sensitivity. However, how the strain affects the performance of 2D materials‐based flexible optoelectronics is confused due to their hypersensitive features to external strain changes. It is necessary to establish an eva… Show more

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Cited by 110 publications
(71 citation statements)
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“…A custom-built mechanical device, the so-called ‘jig’, was designed for this study to be mounted directly onto the 3D-piezoelectric stage of a Raman spectroscopy system. This mechanical ‘jig’ is capable of applying a micron resolution displacement/bending, which is more precise compared with other reported studies [ 12 , 34 , 43 ]. This, in turn, allowed for a steady and accurate application of strain during the spectral measurements on the loaded thin films within the in situ Raman system.…”
Section: Introductionmentioning
confidence: 77%
“…A custom-built mechanical device, the so-called ‘jig’, was designed for this study to be mounted directly onto the 3D-piezoelectric stage of a Raman spectroscopy system. This mechanical ‘jig’ is capable of applying a micron resolution displacement/bending, which is more precise compared with other reported studies [ 12 , 34 , 43 ]. This, in turn, allowed for a steady and accurate application of strain during the spectral measurements on the loaded thin films within the in situ Raman system.…”
Section: Introductionmentioning
confidence: 77%
“…Indeed, it is also of potential applications to make use of the strain caused by the fabrication process of 2D materials and/or 2D heterostructures, such as wrinkles, bubbles, and so on. [ 61,138,139 ] Under external strain, electronic band structure of materials, including the magnitude and type of bandgaps, would be changed by the stretched or compressed lattice structure of 2D materials, leading to modulate the electrical and optical properties. [ 139 ] Especially for 2D materials with strain sensitivity, such as MoS 2 , it is ideal to achieve modulations of photoelectric performance by strain engineering.…”
Section: Challenges and Perspectivesmentioning
confidence: 99%
“…Therefore, it is of great significance to improve its thermoelectric performance by adjusting the thermal transport properties of GeS 2 monolayers. It is worth mentioning that the electronic structures of 2D materials are easily affected by applied strains [ 26 , 27 , 28 ]. Strain engineering has been theoretically and experimentally proposed as a valid way to enhance the thermoelectric properties of 2D thermoelectric materials [ 29 , 30 ].…”
Section: Introductionmentioning
confidence: 99%