Metal-like conductivity exhibited by triboelectrically deposited polyaniline (emeraldine base) particles on microtextured SiC surfaces

Bayer, Ilker S.; Caramia, Vincenzo; Biswas, Abhijit; Cingolani, R.; Athanassiou, Athanassia

doi:10.1063/1.4717465

Cited by 7 publications

(4 citation statements)

References 30 publications

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“…Similarly, Mattoso et al polymerized aniline monomer on cellulose nanofiber mats and obtained conductors having 1 S m −1 conductivity. [87] In one of our previous works, [88] we demonstrated fabrication of highly conductive flexible SiC paper conductors by tribo-charging and acid doping of polyaniline particles into the texture of the rough paper. Conductivities between 700 and 1000 S m −1 were obtained.…”

mentioning

confidence: 99%

Cellulosic Graphene Biocomposites for Versatile High‐Performance Flexible Electronic Applications

Cataldi

Bonaccorso

Castillo

et al. 2016

Adv Elect Materials

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mentioning

confidence: 99%

Cellulosic Graphene Biocomposites for Versatile High‐Performance Flexible Electronic Applications

Cataldi

Bonaccorso

Castillo

et al. 2016

Adv Elect Materials

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“…Triboelectric particle deposition is a coating technique based on the physical phenomenon of frictional (or contact) charging of dissimilar materials [36,37]. In other words, during contact, certain materials become electrically charged when they come in contact with another material through friction.…”

Section: Laser Micromachining and Triboelectric Depositionmentioning

confidence: 99%

Combination of Lithography and Coating Methods for Surface Wetting Control

Milionis¹,

Bayer²,

Fragouli³

et al. 2013

Updates in Advanced Lithography

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“…Polyaniline (PANI) is a highly conductive π conjugated polymer. It shows quasi metallic transport [1], metal to insulator transition and its charge transport is dominated by hopping, localization depending on doping, temperature and magnetic field [2]. Doping in PANI creates metallic islands in the insulating background, order disorder regions, and hopping of charge carriers between these islands leaves polarization which gives rise to the finite value of dielectric constant [3,4].…”

Section: Introductionmentioning

confidence: 99%

Understanding the interaction in functionalized multi-walled carbon nanotube/polyaniline composite by impedance study at low temperature

Maity¹,

Patra²,

Prasad³

2021

J. Phys. D: Appl. Phys.

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The impedance, modulus spectroscopy and dielectric properties of polyaniline (PANI) and composite with multi-walled carbon nanotube (MWCNT) of different degrees of functionalization are studied from 300 to 4.2 K in the frequency range 40 Hz–5 MHz. At low temperature (T ⩽ 100 K), grain and grain boundary relaxation peaks are observed in PANI. In composites, MWCNT forms a network between less and highly conducting grains, increases dc conductivity, and shows no relaxation peak at low temperature. The chemical functionalization of MWCNT increases the polar interaction between MWCNT and PANI, shifts the relaxation peaks towards lower frequency and slows the relaxation process. The relaxation process is manifested as non-Debye type and it tends towards Debye type with increasing temperature in functionalized muti-walled carbon nanotube (fMWCNT) PANI composites, and explained by Bergman’s theory. The relaxation barrier energy at the interface of fMWCNT and PANI increases with increasing degree of functionalization which is the effect of enhanced interfacial (Maxwell Wagner–Sillars) polarization. In MWCNT composite, the real part of dielectric constant shows high negative value below 10 K at lower frequency ( < 950 Hz) and it becomes positive due to functionalization of MWCNT. An additional crossover from positive to negative occurs in both MWCNT and fMWCNT, PANI composite above temperature 60 K and frequency 500 Hz. This crossover shifts towards higher temperature and frequency with increasing degree of functionalization. The negative value and crossover of dielectric constant are explained by Drude–Sommerfeld model.

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Metal-like conductivity exhibited by triboelectrically deposited polyaniline (emeraldine base) particles on microtextured SiC surfaces

Cited by 7 publications

References 30 publications

Cellulosic Graphene Biocomposites for Versatile High‐Performance Flexible Electronic Applications

Cellulosic Graphene Biocomposites for Versatile High‐Performance Flexible Electronic Applications

Combination of Lithography and Coating Methods for Surface Wetting Control

Understanding the interaction in functionalized multi-walled carbon nanotube/polyaniline composite by impedance study at low temperature

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