Strain softened bending modulus of graphene oxide

•The flexibility of graphene oxide is regulated by strain.•The strained graphene oxide can be more flexible than graphene.•The mechanism of strain softened bending modulus is revealed. Graphene oxide is attractive in flexible materials due to its biocompatibility. Herein, flexibility of graphene oxi...

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Published inCarbon trends Vol. 7; p. 100167
Main Authors Yu, Songding, Jiao, Lei, Zhao, Jijun, Liu, Lizhao
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.04.2022
Elsevier
Subjects
Bending modulus
Flexibility
Graphene oxide
Tensile strain
Graphene oxide
Tensile strain
Flexibility
Bending modulus
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Abstract •The flexibility of graphene oxide is regulated by strain.•The strained graphene oxide can be more flexible than graphene.•The mechanism of strain softened bending modulus is revealed. Graphene oxide is attractive in flexible materials due to its biocompatibility. Herein, flexibility of graphene oxide under uniaxial tensile strain has been studied in term of the bending modulus. It is demonstrated that tensile strain plays an effective role in softening the bending modulus of graphene oxide. The strained graphene oxide can be even more flexible than graphene. The mechanism of strain softened bending modulus is discussed where weakened atomic bonding accounts directly for the enhanced flexibility. Particularly, an important factor for softened bending modulus is proposed, i.e. alignment of epoxide groups. The degradation of bending modulus is more prominent when the epoxides are aligned along the bending direction. This work not only proposes an effective method to enhance the flexibility of graphene oxide, but also unveils the mechanism of softened bending modulus, which could be useful in design of highly flexible materials. [Display omitted]
AbstractList •The flexibility of graphene oxide is regulated by strain.•The strained graphene oxide can be more flexible than graphene.•The mechanism of strain softened bending modulus is revealed. Graphene oxide is attractive in flexible materials due to its biocompatibility. Herein, flexibility of graphene oxide under uniaxial tensile strain has been studied in term of the bending modulus. It is demonstrated that tensile strain plays an effective role in softening the bending modulus of graphene oxide. The strained graphene oxide can be even more flexible than graphene. The mechanism of strain softened bending modulus is discussed where weakened atomic bonding accounts directly for the enhanced flexibility. Particularly, an important factor for softened bending modulus is proposed, i.e. alignment of epoxide groups. The degradation of bending modulus is more prominent when the epoxides are aligned along the bending direction. This work not only proposes an effective method to enhance the flexibility of graphene oxide, but also unveils the mechanism of softened bending modulus, which could be useful in design of highly flexible materials. [Display omitted]
Graphene oxide is attractive in flexible materials due to its biocompatibility. Herein, flexibility of graphene oxide under uniaxial tensile strain has been studied in term of the bending modulus. It is demonstrated that tensile strain plays an effective role in softening the bending modulus of graphene oxide. The strained graphene oxide can be even more flexible than graphene. The mechanism of strain softened bending modulus is discussed where weakened atomic bonding accounts directly for the enhanced flexibility. Particularly, an important factor for softened bending modulus is proposed, i.e. alignment of epoxide groups. The degradation of bending modulus is more prominent when the epoxides are aligned along the bending direction. This work not only proposes an effective method to enhance the flexibility of graphene oxide, but also unveils the mechanism of softened bending modulus, which could be useful in design of highly flexible materials.
ArticleNumber 100167
Author Yu, Songding
Liu, Lizhao
Jiao, Lei
Zhao, Jijun
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Cites_doi 10.1021/acs.langmuir.6b03032
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Keywords Graphene oxide
Tensile strain
Flexibility
Bending modulus
Language English
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Snippet •The flexibility of graphene oxide is regulated by strain.•The strained graphene oxide can be more flexible than graphene.•The mechanism of strain softened...
Graphene oxide is attractive in flexible materials due to its biocompatibility. Herein, flexibility of graphene oxide under uniaxial tensile strain has been...
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StartPage 100167
SubjectTerms Bending modulus
Flexibility
Graphene oxide
Tensile strain
Title Strain softened bending modulus of graphene oxide
URI https://dx.doi.org/10.1016/j.cartre.2022.100167
https://doaj.org/article/24595c254778471da2a402cb4a94a726
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