Electrospun PbS/PAN–PANI Carbon Nanofibers Decorated on Carbon Cloth as Pseudo-Electrochemical Capacitor Material

Sharma, Deep S.; Patel, Akash P.; Bariya, Sanjay N.; Kapdi, Yash G.; Soni, Saurabh S.; Patel, Nidhi N.; Panjabi, Sanjay H.; Patel, Vaibhav K.

doi:10.1021/acsaelm.4c00320

ACS Appl. Electron. Mater.

2024

DOI: 10.1021/acsaelm.4c00320

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Electrospun PbS/PAN–PANI Carbon Nanofibers Decorated on Carbon Cloth as Pseudo-Electrochemical Capacitor Material

Deep S. Sharma,

Akash P. Patel,

Sanjay N. Bariya

et al.

Abstract: nanofibers stand out as a promising candidate for energy storage applications, particularly in the domain of supercapacitors. Their inherent advantages, including a high surface area, enhanced charge transport capabilities, and improved electrochemical performance, make them an intriguing focus of investigation. In this study, we present a thorough exploration of the synthesis, characterization, and application of PbS nanoparticles incorporated within the electrospun matrix of a polyacrylonitrile−polyaniline (… Show more

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Tuning electrochemical properties of carbon nanofiber electrodes with selenium heteroatoms for flexible zinc ion capacitors

Liu,

Qiao,

Zhao

2024

Nano Research Energy

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The N-doping strategy is considered an effective method to regulate the electronic structure of carbon materials and improve their electrochemical performance. However, how to reasonably regulate the types of N-doping species remains a major challenge. Herein, we reported a self-supporting carbon nanofiber electrode codoped with N and Se (N/Se-CNF) for flexible zinc ion capacitor (ZIC). It was found that Se atoms can induce the reduction of Pyrrole-N, which is favorable for Zn ions transfer. Furthermore, ex-situ characterizations and theoretical density functional theory (DFT) calculations have shown that additional Se atoms can provide abundant reaction sites and reduce the adsorption energy of Zn ions. Accordingly, the N/Se-CNF electrode demonstrates impressive rate performance. The N/Se-CNF electrode shows impressive rate performance, retaining 60% capacitance at 20 A•g -1 , with an energy density of 95.3 Wh•kg -1 and power density of 160.1 W•kg -1 , and a commendable stability cycle, the capacitance retention is 88.1% after 18,000 cycles at a discharge rate of 5 A•g -1 . Moreover, a flexible ZIC with N/Se-CNF electrode exhibits a high energy density of 68.8 Wh•kg -1 at 160 W•kg -1 . This strategy innovatively regulates N-doping species and offers potential flexible electrodes for advanced energy storage devices.

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Tuning electrochemical properties of carbon nanofiber electrodes with selenium heteroatoms for flexible zinc ion capacitors

Liu,

Qiao,

Zhao

2024

Nano Research Energy

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Electrospun PbS/PAN–PANI Carbon Nanofibers Decorated on Carbon Cloth as Pseudo-Electrochemical Capacitor Material

Cited by 1 publication

References 49 publications

Tuning electrochemical properties of carbon nanofiber electrodes with selenium heteroatoms for flexible zinc ion capacitors

Tuning electrochemical properties of carbon nanofiber electrodes with selenium heteroatoms for flexible zinc ion capacitors

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