Strong and tough graphene papers constructed with pyrene-containing small molecules via π-π/H-bonding synergistic interactions

Hong Yuan; Liangbing Ge; Kun Ni; Xiukai Kan; Si Ming Chen; Mengting Gao; Fei Pan; Jianglin Ye; Fang Xu; Na Shu; Jieyun Li; Tao Suo; Shu Hong Yu; Yanwu Zhu

doi:10.1007/s40843-020-1523-3

Strong and tough graphene papers constructed with pyrene-containing small molecules via π-π/H-bonding synergistic interactions

投稿的翻译标题: 基于π-π/H-键协同作用制备含芘小分子增强高韧性石墨烯纸

Hong Yuan, Liangbing Ge, Kun Ni, Xiukai Kan, Si Ming Chen, Mengting Gao, Fei Pan, Jianglin Ye, Fang Xu, Na Shu, Jieyun Li, Tao Suo, Shu Hong Yu, Yanwu Zhu^*

^*此作品的通讯作者

科研成果: 期刊稿件 › 文章 › 同行评审

4 引用（Scopus）

摘要

Lightweight yet strong paper with high toughness is desirable especially for impact protection. Herein we demonstrated electrically conductive and mechanically robust paper (AP/PB-GP) made of reduced graphene oxide via interfacial crosslinking with 1-aminopyrene (AP) and 1-pyrenebutyrat (PB) small molecules. The AP/PB-GP with thickness of over ten micrometer delivers a record-high toughness (∼69.67 ± 15.3 MJ m⁻³ in average), simultaneously with superior strength (close to 1 GPa), allowing an impressive specific penetration energy absorption (∼0.17 MJ kg⁻¹) at high impact velocities when used for ballistic impact protection. Detailed interfacial and structural analysis reveals that the reinforcement is synergistically determined by π-π interaction and H-bonding linkage between adjacent graphene lamellae. Especially, the defective pores within the graphene platelets benefit the favorable adsorption of the pyrene-containing molecules, which imperatively maximizes the interfacial binding, facilitating deflecting crack and plastic deformation under loading. Density functional theory simulation suggests that the coupling between the polar functional groups, e.g., −COOH, at the edges of graphene platelets and −NH₂ and −COOH of AP/PB are critical to the formation of hydrogen bonding network.

投稿的翻译标题	基于π-π/H-键协同作用制备含芘小分子增强高韧性石墨烯纸
源语言	英语
页（从-至）	1206-1218
页数	13
期刊	Science China Materials
卷	64
期	5
DOI	https://doi.org/10.1007/s40843-020-1523-3
出版状态	已出版 - 5月 2021
已对外发布	是

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Yuan, H., Ge, L., Ni, K., Kan, X., Chen, S. M., Gao, M., Pan, F., Ye, J., Xu, F., Shu, N., Li, J., Suo, T., Yu, S. H., & Zhu, Y. (2021). Strong and tough graphene papers constructed with pyrene-containing small molecules via π-π/H-bonding synergistic interactions. Science China Materials, 64(5), 1206-1218. https://doi.org/10.1007/s40843-020-1523-3

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title = "Strong and tough graphene papers constructed with pyrene-containing small molecules via π-π/H-bonding synergistic interactions",

abstract = "Lightweight yet strong paper with high toughness is desirable especially for impact protection. Herein we demonstrated electrically conductive and mechanically robust paper (AP/PB-GP) made of reduced graphene oxide via interfacial crosslinking with 1-aminopyrene (AP) and 1-pyrenebutyrat (PB) small molecules. The AP/PB-GP with thickness of over ten micrometer delivers a record-high toughness (∼69.67 ± 15.3 MJ m−3 in average), simultaneously with superior strength (close to 1 GPa), allowing an impressive specific penetration energy absorption (∼0.17 MJ kg−1) at high impact velocities when used for ballistic impact protection. Detailed interfacial and structural analysis reveals that the reinforcement is synergistically determined by π-π interaction and H-bonding linkage between adjacent graphene lamellae. Especially, the defective pores within the graphene platelets benefit the favorable adsorption of the pyrene-containing molecules, which imperatively maximizes the interfacial binding, facilitating deflecting crack and plastic deformation under loading. Density functional theory simulation suggests that the coupling between the polar functional groups, e.g., −COOH, at the edges of graphene platelets and −NH2 and −COOH of AP/PB are critical to the formation of hydrogen bonding network.",

keywords = "graphene paper, H-bonding, mechanical properties, synergistic reinforcement, π-π interaction",

author = "Hong Yuan and Liangbing Ge and Kun Ni and Xiukai Kan and Chen, {Si Ming} and Mengting Gao and Fei Pan and Jianglin Ye and Fang Xu and Na Shu and Jieyun Li and Tao Suo and Yu, {Shu Hong} and Yanwu Zhu",

note = "Publisher Copyright: {\textcopyright} 2020, Science China Press and Springer-Verlag GmbH Germany, part of Springer Nature.",

year = "2021",

month = may,

doi = "10.1007/s40843-020-1523-3",

language = "English",

volume = "64",

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T1 - Strong and tough graphene papers constructed with pyrene-containing small molecules via π-π/H-bonding synergistic interactions

AU - Yuan, Hong

AU - Ge, Liangbing

AU - Ni, Kun

AU - Kan, Xiukai

AU - Chen, Si Ming

AU - Gao, Mengting

AU - Pan, Fei

AU - Ye, Jianglin

AU - Xu, Fang

AU - Shu, Na

AU - Li, Jieyun

AU - Suo, Tao

AU - Yu, Shu Hong

AU - Zhu, Yanwu

PY - 2021/5

Y1 - 2021/5

N2 - Lightweight yet strong paper with high toughness is desirable especially for impact protection. Herein we demonstrated electrically conductive and mechanically robust paper (AP/PB-GP) made of reduced graphene oxide via interfacial crosslinking with 1-aminopyrene (AP) and 1-pyrenebutyrat (PB) small molecules. The AP/PB-GP with thickness of over ten micrometer delivers a record-high toughness (∼69.67 ± 15.3 MJ m−3 in average), simultaneously with superior strength (close to 1 GPa), allowing an impressive specific penetration energy absorption (∼0.17 MJ kg−1) at high impact velocities when used for ballistic impact protection. Detailed interfacial and structural analysis reveals that the reinforcement is synergistically determined by π-π interaction and H-bonding linkage between adjacent graphene lamellae. Especially, the defective pores within the graphene platelets benefit the favorable adsorption of the pyrene-containing molecules, which imperatively maximizes the interfacial binding, facilitating deflecting crack and plastic deformation under loading. Density functional theory simulation suggests that the coupling between the polar functional groups, e.g., −COOH, at the edges of graphene platelets and −NH2 and −COOH of AP/PB are critical to the formation of hydrogen bonding network.

AB - Lightweight yet strong paper with high toughness is desirable especially for impact protection. Herein we demonstrated electrically conductive and mechanically robust paper (AP/PB-GP) made of reduced graphene oxide via interfacial crosslinking with 1-aminopyrene (AP) and 1-pyrenebutyrat (PB) small molecules. The AP/PB-GP with thickness of over ten micrometer delivers a record-high toughness (∼69.67 ± 15.3 MJ m−3 in average), simultaneously with superior strength (close to 1 GPa), allowing an impressive specific penetration energy absorption (∼0.17 MJ kg−1) at high impact velocities when used for ballistic impact protection. Detailed interfacial and structural analysis reveals that the reinforcement is synergistically determined by π-π interaction and H-bonding linkage between adjacent graphene lamellae. Especially, the defective pores within the graphene platelets benefit the favorable adsorption of the pyrene-containing molecules, which imperatively maximizes the interfacial binding, facilitating deflecting crack and plastic deformation under loading. Density functional theory simulation suggests that the coupling between the polar functional groups, e.g., −COOH, at the edges of graphene platelets and −NH2 and −COOH of AP/PB are critical to the formation of hydrogen bonding network.

KW - graphene paper

KW - H-bonding

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KW - π-π interaction

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ER -

Strong and tough graphene papers constructed with pyrene-containing small molecules via π-π/H-bonding synergistic interactions

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