Improving the mechanical properties, UV and hydrothermal aging resistance of PIPD fiber using MXene (Ti3C2(OH)2) nanosheets

Taloub, Nadia; Henniche, Abdelkhalek; Liu, Li; Li, Jun; Rahoui, Nahla; Hegazy, Mohammad; Huang, Yudong

doi:10.1016/j.compositesb.2018.11.007

Cited by 50 publications

(19 citation statements)

References 58 publications

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“…MXenes can also be used to improve the interfacial interactions between the reinforcing agent, e.g., particle or fiber, and the host matrix. [150] For instance, poly-pyridobisimidazole (PIPD) has a poor UV degradation and hydrothermal aging properties and it has an inert surface providing insufficient bonding strength with epoxy resin. To circumvent these problems with PIPD, Taloub et al [150] improved the mechanical, thermal, and optical property of PIPD fibers by grafting Ti 3 C 2 (OH) 2 nanoflakes wherein the UV and hydrothermal aging resistance were respectively obtained as 33% and 25%; Figure 10a illustrates the tensile strength retention of PIPD fibers after a 300 h of UV irradiation and Figure 10b,c illustrate the SEM images of both treated and untreated MXene samples.…”

Section: Mxene/polymer Compositementioning

confidence: 99%

Mechanotribological Aspects of MXene‐Reinforced Nanocomposites

2020

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MXenes are recently discovered 2D nanomaterial with superior mechanical, thermal, and tribological properties, being commonly employed in a wide variety of critical research areas, ranging from cancer therapy to energy and environmental applications. Due to their special properties, such as mechanoceramic nature with excellent mechanical performance, thermal stability and rich surface properties, MXenes have tremendous potential as advanced composite structures, especially those based on polymers due to a great affinity between macromolecules and the terminating groups of 2D MXenes. MXenes have been extensively explored in metal matrix nanocomposites as well as in solid‐ or liquid‐based lubrication systems owing to the 2D structure and antifriction characteristics. The purpose of the this paper is to provide a comprehensive insight into the material, mechanical, and tribological properties of the MXene nanolayers with discussions on the recent advancements attained from MXene‐reinforced nanocomposites starting with the synthesis, fabrication techniques, intricacies of the underlying physics and mechanisms, and finally focusing on the progress in computational studies. This analysis of MXene‐based composites will stimulate an emerging field with innumerable opportunities and ample potentials to produce newfangled materials and structures with targeted properties.

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Section: Mxene/polymer Compositementioning

confidence: 99%

Mechanotribological Aspects of MXene‐Reinforced Nanocomposites

2020

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“…The 2D material-liquid interactions would perturb liquid structures, resulting in distinctive behaviors and performance for sensors, energy storage, and other applications. 8 Although numerous studies on the assembly and application of MXene lms or papers have been reported, 16 to date, only two published articles have studied the surface free energy of MXene, 17,18 while the focuses of the two articles are not the SE.…”

Section: Introductionmentioning

confidence: 99%

Study on contact angles and surface energy of MXene films

Zhou

Wang

et al. 2021

RSC Adv.

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“…On the other hand, the silane molecules can not only change the surface hydrophilcity, but also alter the surface charged state (zeta potential) of MXenes. For instance, the aminosilane with positively charged amino group was demonstrated to have a critical role on the surface charge of aminosilane-Ti 3 C 2 T x hybrids [ 33 , 34 ]. As reported by Hossein et al the [3-(2-aminoethylamino)propyl]-trimethoxy silane (AEAPTMS)-Ti 3 C 2 T x hybrids had a positive zeta potential of +62 mV at pH = 2.58, which is the highest zeta potential reported for MXenes to date.…”

Section: Strategies Towards Mxene-organic Hybridsmentioning

confidence: 99%

Recent Advanced on the MXene–Organic Hybrids: Design, Synthesis, and Their Applications

Zhao

Wang

et al. 2021

Nanomaterials

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With increasing research interest in the field of flexible electronics and wearable devices, intensive efforts have been paid to the development of novel inorganic-organic hybrid materials. As a newly developed two-dimensional (2D) material family, MXenes present many advantages compared with other 2D analogs, especially the variable surface terminal groups, thus the infinite possibility for the regulation of surface physicochemical properties. However, there is still less attention paid to the interfacial compatibility of the MXene-organic hybrids. To this end, this review will briefly summarize the recent progress on MXene-organic hybrids, offers a deeper understanding of the interaction and collaborative mechanism between the MXenes and organic component. After the discussion of the structure and surface characters of MXenes, strategies towards MXene-organic hybrids are introduced based on the interfacial interactions. Based on different application scenarios, the advantages of MXene-organic hybrids in constructing flexible devices are then discussed. The challenges and outlook on MXene-organic hybrids are also presented.

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Improving the mechanical properties, UV and hydrothermal aging resistance of PIPD fiber using MXene (Ti3C2(OH)2) nanosheets

Cited by 50 publications

References 58 publications

Mechanotribological Aspects of MXene‐Reinforced Nanocomposites

Mechanotribological Aspects of MXene‐Reinforced Nanocomposites

Study on contact angles and surface energy of MXene films

Recent Advanced on the MXene–Organic Hybrids: Design, Synthesis, and Their Applications

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