2022
DOI: 10.1016/j.cartre.2022.100167
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Strain softened bending modulus of graphene oxide

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Cited by 3 publications
(3 citation statements)
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“…Bending modulus is a parameter to determine the flexibility of a material, which can be calculated by analysing the relationship between the bending energy and bending curvature. To study the bending modulus, the G/h-BN heterostructures were curled the into nanotubes to simulate the bending behaviors [26][27][28]. From our calculations, the pristine graphene has a bending modulus of 1.501 eV in AC direction, and pristine h-BN exhibits a bending modulus of 1.16 eV in ZZ direction, agreeing well with previous reports [18,20,27].…”
Section: Bending Modulussupporting
confidence: 87%
“…Bending modulus is a parameter to determine the flexibility of a material, which can be calculated by analysing the relationship between the bending energy and bending curvature. To study the bending modulus, the G/h-BN heterostructures were curled the into nanotubes to simulate the bending behaviors [26][27][28]. From our calculations, the pristine graphene has a bending modulus of 1.501 eV in AC direction, and pristine h-BN exhibits a bending modulus of 1.16 eV in ZZ direction, agreeing well with previous reports [18,20,27].…”
Section: Bending Modulussupporting
confidence: 87%
“…Generally, structures with high atomic density usually possess large bending modulus [19]. As a result, tensile strain can significantly soften the bending modulus of graphene [33] and oxidized graphene [21] by stretching the bond length and decrease the atomic density.…”
Section: Resultsmentioning
confidence: 99%
“…All these planar graphene allotropes have lower bending moduli than that of graphene. Besides, the bending modulus is also related to the bending direction and thickness for the graphene allotropes and oxidized graphene [10,[19][20][21]. In contrast to the Young's modulus, few works about the flexibility of graphene heterojunctions were reported.…”
Section: Introductionmentioning
confidence: 99%