Your search keyword '"dynamic materials"' showing total 4 results

1. Bolstering the Mechanical Robustness of Supramolecular Polymer Network by Mechanical Bond.

Author

Wang, Yuan-Hao, Deng, Jing-Xi, Zhao, Jun, Ding, Yi, Yang, Li, Zhang, Zhao-Ming, and Yan, Xu-Zhou

Subjects

*SUPRAMOLECULAR polymers, *YOUNG'S modulus, *ENERGY dissipation, *TENSILE tests, *POLYMER networks, *ELASTICITY

Abstract

Supramolecular polymer networks (SPNs) are celebrated for their dynamic nature, yet they often exhibit inadequate mechanical properties. Thus far, the quest to bolster the mechanical resilience of SPNs while preserving their dynamic character presents a formidable challenge. Herein, we introduce [2]rotaxane into SPN to serve as another cross-link, which could effectively enhance the mechanical robustness of the polymer network without losing the dynamic properties. Compared with SPN, the dually cross-linked network (DPN) demonstrates superior breaking strength, Young's modulus, puncture force and toughness, underscoring its superior robustness. Furthermore, the cyclic tensile tests reveal that the energy dissipation capacity of DPN rivals, and in some cases surpasses, that of SPN, owing to the efficient energy dissipation pathway facilitated by [2]rotaxane. In addition, benefiting from stable topological structure of [2]rotaxane, DPN exhibits accelerated recovery from deformation, indicating superior elasticity compared to SPN. This strategy elevates the performance of SPNs across multiple metrics, presenting a promising avenue for the development of high-performance dynamic materials. [ABSTRACT FROM AUTHOR]

Published

2024

2. Insights into the Correlation of Cross‐linking Modes with Mechanical Properties for Dynamic Polymeric Networks.

Author

Deng, Jingxi, Bai, Ruixue, Zhao, Jun, Liu, Guoquan, Zhang, Zhaoming, You, Wei, Yu, Wei, and Yan, Xuzhou

Subjects

*ELASTOMERS, *CROSSLINKED polymers, *SUPRAMOLECULAR polymers, *POLYMER networks, *STRUCTURAL stability, *ELASTICITY

Abstract

Simultaneously introducing covalent and supramolecular cross‐links into one system to construct dually cross‐linked networks, has been proved an effective approach to prepare high‐performance materials. However, so far, features and advantages of dually cross‐linked networks compared with those possessing individual covalent or supramolecular cross‐linking points are rarely investigated. Herein, on the basis of comparison between supramolecular polymer network (SPN), covalent polymer network (CPN) and dually cross‐linked polymer network (DPN), we reveal that the dual cross‐linking strategy can endow the DPN with integrated advantages of CPN and SPN. Benefiting from the energy dissipative ability along with the dissociation of host–guest complexes, the DPN shows excellent toughness and ductility similar to the SPN. Meanwhile, the elasticity of covalent cross‐links in the DPN could rise the structural stability to a level comparable to the CPN, exhibiting quick deformation recovery capacity. Moreover, the DPN has the strongest breaking stress and puncture resistance among the three, proving the unique property advantages of dual cross‐linking method. These findings gained from our study further deepen the understanding of dynamic polymeric networks and facilitate the preparation of high‐performance elastomeric materials. [ABSTRACT FROM AUTHOR]

Published

2023

3. Highly Strong and Tough Supramolecular Polymer Networks Enabled by Cryptand‐Based Host‐Guest Recognition.

Author

Liu, Yuhang, Wan, Junjun, Zhao, Xinyang, Zhao, Jun, Guo, Yuchen, Bai, Ruixue, Zhang, Zhaoming, Yu, Wei, Gibson, Harry W., and Yan, Xuzhou

Subjects

*SUPRAMOLECULAR polymers, *POLYMER networks, *YOUNG'S modulus, *DEFORMATIONS (Mechanics), *CROWN ethers, *SMART materials, *BINDING constant

Abstract

Supramolecular polymer networks (SPNs) demonstrate great potential in the development of smart materials owing to their attractive dynamic properties. However, as they suffer from the inherent weak bonding of most noncovalent cross‐links, it remains a significant challenge to construct SPNs with outstanding mechanical performance. Herein, we exploit the cryptand/paraquat host‐guest recognition motifs as cross‐links to prepare a class of highly strong and tough SPNs. Unlike those supramolecular cross‐links with relatively weak binding abilities, the cryptand‐based host‐guest interactions have a high association constant and steady complexing structure, which effectively stabilizes the network and resists mechanical deformation under external force. Such favorable structural stability endows our SPNs with greatly enhanced mechanical performance, compared with the control‐1 cross‐linked by the weakly complexed crown ether/secondary ammonium salt motif (tensile strength: 21.1±0.5 vs 2.8±0.1 MPa; Young's modulus: 102.6±4.8 vs 2.1±0.3 MPa; toughness: 90.4±2.0 vs 10.8±0.6 MJ m−3). Moreover, our SPNs also retain abundant dynamic properties including good abilities in energy dissipation, reprocessability, and stimuli‐responsiveness. These findings provide novel insights into the preparation of SPNs with enhanced mechanical properties, and promote the development of high‐performance intelligent supramolecular materials. [ABSTRACT FROM AUTHOR]

Published

2023

4. Robust and Dynamic Polymer Networks Enabled by Woven Crosslinks.

Author

Li, Guangfeng, Zhao, Jun, Zhang, Zhaoming, Zhao, Xinyang, Cheng, Lin, Liu, Yuhang, Guo, Zhewen, Yu, Wei, and Yan, Xuzhou

Subjects

*POLYMER networks, *SUPRAMOLECULAR polymers, *MECHANICAL behavior of materials, *COVALENT bonds

Abstract

Crosslinking plays a crucial role in determining mechanical properties of polymer materials. Although various crosslinks based on covalent or noncovalent bonds have been adopted, it remains an enormous challenge to develop a crosslink which could endow corresponding polymer network with robust yet dynamic properties. Herein, we report a crosslink simultaneously having dynamic property and woven geometry, and the polymer network with woven crosslinks (WPN) could integrate the merits of covalent polymer network (CPN) and supramolecular polymer network (SPN). In specific, the WPN not only exhibits comparable stiffness, strength, elastic recovery, and anti‐fatigue property to those of CPN, but also possesses decent mechanical adaptivity and ductility, similar to those of SPN. Particularly, its toughness and puncture resistance are much superior to those of the others. Besides, the dynamicity of woven crosslink also imparts good performances of self‐healing and processability to WPN. [ABSTRACT FROM AUTHOR]

Published

2022