Acid-Doped Pyridine-Based Polybenzimidazole as a Positive Triboelectric Material with Superior Charge Retention Capability

Tao, Xinglin; Yang, Peng; Liu, Zhaoqi; Qin, Siyao; Hu, Jun; Huang, Zhao-Xia; Chen, Xiangyu; Qu, Jin-Ping

doi:10.1021/acsnano.3c11087

Cited by 20 publications

(2 citation statements)

References 53 publications

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“…To the best of our knowledge, many researchers have explored and maximized transferred charge density of triboelectric materials by optimizing the processing methodology. , As investigated in our previous work, ,− the processing and molding techniques have great effect on the crystal structure and surface state of the polymer film, which directly affect the generation, accumulation, and retainment of triboelectric charges during the film friction process. The dramatically growing application of TENG in fields such as self-powered sensors, ocean wave energy harvesting, and human–machine interaction has created an urgent need for flexible positive triboelectric materials.…”

Section: Introductionmentioning

confidence: 99%

Highly Tribo-Positive Nylon-11 Film Fabricated by Multiscale Structural Regulation through a Roll-to-Roll Processing

Fang,

Zhong,

Liu

et al. 2024

ACS Appl. Mater. Interfaces

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Triboelectric polymers have attracted extensive attention due to their great electron-accepting and electron-donating properties in contact electrification as well as their flexible and low-cost merits and have become promising electrode materials in triboelectric nanogenerators (TENGs). However, most research has exclusively focused on improving the electron capture capability of the triboelectric layer, neglecting to enhance the electron-donating capability, which leads to a low output performance of TENG and limits its practical application. In this study, we developed a method to fabricate highly tribo-positive Nylon-11 film through roll-to-roll processing. Paired with the poly(tetrafluoroethylene) triboelectric layer, the transferred charge density of contact-separation TENG based on Nylon-11 film prepared by this method reaches 291.1 μC/m2, which has been improved by 12.4% compared with the conventional compression molding sample. The novel fabricating method can regulate the surface functional groups to achieve higher surface potential and obtain a favorable pseudohexagonal crystal phase, leading to an increasing transferred charge density in triboelectrification. Additionally, it has been analyzed that higher chemical potential of materials can facilitate the transfer of electrons from the triboelectric polymer surface. This study provides a nonadditive, simple, and effective strategy to fabricate excellent tribo-positive material, which can significantly enhance the performance of TENG.

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Section: Introductionmentioning

confidence: 99%

Highly Tribo-Positive Nylon-11 Film Fabricated by Multiscale Structural Regulation through a Roll-to-Roll Processing

Fang,

Zhong,

Liu

et al. 2024

ACS Appl. Mater. Interfaces

Self Cite

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“…For example, a triboelectric nanogenerator (TENG) gathers mechanical energy generated by various frictional motions on various interfaces by utilizing the triboelectric effect. 5,6 Due to their use of a wide selection of materials, small size, environmental sustainability, and high power density, TENGs can collect energy from a wide range of environmental sources for power generation. Therefore, they can be applied to self-powered sensors, which is a popular research topic in the Internet of Things.…”

Section: Introductionmentioning

confidence: 99%

Contact-electro-catalysis under natural and industrial conditions: mechanisms, strategies, and challenges

Li,

Tong

2024

J. Mater. Chem. A

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Regulation of Dihedral Angle on Molecular Engineering for Enhancing Triboelectric Performance

Zhou,

Tao,

Liu

et al. 2024

Adv Funct Materials

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The performance of triboelectric polymers relies on their molecular structure. Therefore, investigating how to construct high‐performance molecular structures of triboelectric polymers becomes imperative, yet the relationship between microscopic structural parameters and triboelectric performance remains unclear. In this study, the relationship is studied between dihedral angles of adjacent conjugated planes and triboelectric performance. Various polyimide monomers are synthesized to manipulate the conjugated dihedral angles within the molecular chains. Introducing larger dihedral angles in polyimides (PIs) reduces the conjugation between molecular chains, suppressing the formation of charge transfer complexes (CTCs), and widening the energy gap between molecular orbitals. With the increase in dihedral angles, the output performance improved by 100%. The surface charge density of 335 µC·m−2 is achieved through the synergistic effect of the high charge retention capability of the PI film and the high triboelectric properties of the corona‐polarized fluorinated ethylene propylene (FEP). A large dihedral angle can form numerous deep traps and effectively prevent charge escaping while ensuring stable output. This study provides a feasible strategy for investigating the construction of high triboelectric performance molecular structures, enriching the understanding of how molecular structures influence the triboelectric properties of polymer materials and promote high‐performance fluorine‐free and environmentally friendly polymers.

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Acid-Doped Pyridine-Based Polybenzimidazole as a Positive Triboelectric Material with Superior Charge Retention Capability

Cited by 20 publications

References 53 publications

Highly Tribo-Positive Nylon-11 Film Fabricated by Multiscale Structural Regulation through a Roll-to-Roll Processing

Highly Tribo-Positive Nylon-11 Film Fabricated by Multiscale Structural Regulation through a Roll-to-Roll Processing

Contact-electro-catalysis under natural and industrial conditions: mechanisms, strategies, and challenges

Regulation of Dihedral Angle on Molecular Engineering for Enhancing Triboelectric Performance

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