Development of Kovacs model for electrical conductivity of carbon nanofiber–polymer systems

Arjmandi, Sajad Khalil; Yeganeh, Jafar Khademzadeh; Zare, Yasser; Rhee, Kyong Yop

doi:10.1038/s41598-022-26139-5

Cited by 17 publications

(6 citation statements)

References 87 publications

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“…Using electrospinning, carbon nanotube has been filled in nanofibers of polymers [59] . The polyamide and poly(ethylene glycol) thermoplastic matrices have been reinforced with carbon nanotube to form electrospun nanofibers [61] . In addition, conducting polymer like polyaniline has been filled with carbon nanotube to synthesize the nanofibers [62] .…”

Section: Nanocomposite Nanofibers and Membranes Formed By Electrospin...mentioning

confidence: 99%

State-of-the-art of electrospun nanocomposite nanofibers and membranes with carbon nanoparticles—Prevailing progressions

Kausar,

Ahmad

2024

Charact. Appl. Nanomater.

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This state-of-the-art overview emphasizes electrospinning technique and resulting electrospun nanofibers and nanofibrous membranes. Consequently, the electrospinning method as well as the formation and features of the electrospun nanofiber/membrane nanomaterials have been described. Properties of the electrospun nanofibers have found to be enhanced several folds through the incorporation of carbon nanoparticles in the nanofibers. Important properties and utilizations of carbon nanocomposite electrospun nanofibers were seemed to be affected by nanoparticle amount and dispersal. Importantly, diameter, microstructure, and physical features (thermal, mechanical, conductive, etc.) of the nanofibers and resulting membranes can be affected by the nanofiller behavior. The high performance electrospun nanofibers have been used to form efficient nanocomposite nanofibrous membranes. Sequentially, the electrospun nanocomposite nanofibrous membranes have been applied in technical membrane applications.

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Section: Nanocomposite Nanofibers and Membranes Formed By Electrospin...mentioning

confidence: 99%

State-of-the-art of electrospun nanocomposite nanofibers and membranes with carbon nanoparticles—Prevailing progressions

Kausar,

Ahmad

2024

Charact. Appl. Nanomater.

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“…A carbon nanotube forms electrospun nanofibers with various polymers such as poly(ethylene glycol) and polyamide [94,95]. Electrospun poly(ethylene glycol)/carbon nanotube nanofibers have been reported with a fine morphology and high-power density of 156 mWcm −2 [96,97]. Kaynan et al [98] designed pol(vinyl butyral)and carbon nanotube-derived nanocomposite nanofibers.…”

Section: Design and Characteristics Of Electrospun Polymer/nanocarbon...mentioning

confidence: 99%

“…high-power density of 156 mWcm −2 [96,97]. Kaynan et al [98] designed pol(vinyl butyral)and carbon nanotube-derived nanocomposite nanofibers.…”

Section: Design and Characteristics Of Electrospun Polymer/nanocarbon...mentioning

confidence: 99%

Electrospinning Processing of Polymer/Nanocarbon Nanocomposite Nanofibers—Design, Features, and Technical Compliances

Kausar

Ahmad

2023

J. Compos. Sci.

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Polymeric nanofibers have emerged as exclusive one-dimensional nanomaterials. Various polymeric nanofibers and nanocomposite nanofibers have been processed using the thermoplastic, conducting, and thermoset matrices. This review aims to highlight the worth of electrospinning technology for the processing of polymer/nanocarbon nanocomposite nanofibers. In this regard, the design, morphology, physical properties, and applications of the nanofibers were explored. The electrospun polymer/nanocarbon nanofibers have a large surface area and fine fiber orientation, alignment, and morphology. The fiber processing technique and parameters were found to affect the nanofiber morphology, diameter, and essential physical features such as electrical conductivity, mechanical properties, thermal stability, etc. The polymer nanocomposites with nanocarbon nanofillers (carbon nanotube, graphene, fullerene, etc.) were processed into high-performance nanofibers. Successively, the electrospun nanocomposite nanofibers were found to be useful for photovoltaics, supercapacitors, radiation shielding, and biomedical applications (tissue engineering, antimicrobials, etc.).

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“…Therefore, an opposite link between conductivity and tunneling length based on the innovative model is true, as suggested by previous studies. 51,53,54…”

Section: Pccp Papermentioning

confidence: 99%

Percolation onset and conductivity of nanocomposites assuming an incomplete dispersion of graphene nanosheets in a polymer matrix

Zare,

Munir,

Rhee

2023

Phys. Chem. Chem. Phys.

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Development of Kovacs model for electrical conductivity of carbon nanofiber–polymer systems

Cited by 17 publications

References 87 publications

State-of-the-art of electrospun nanocomposite nanofibers and membranes with carbon nanoparticles—Prevailing progressions

State-of-the-art of electrospun nanocomposite nanofibers and membranes with carbon nanoparticles—Prevailing progressions

Electrospinning Processing of Polymer/Nanocarbon Nanocomposite Nanofibers—Design, Features, and Technical Compliances

Percolation onset and conductivity of nanocomposites assuming an incomplete dispersion of graphene nanosheets in a polymer matrix

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