Dielectric Properties of Plasma Polymerized N,n,3,5 Tetramethylaniline Thin Films

Akther, H.; Bhuiyan, A.H.

doi:10.1142/s0218625x11014485

Cited by 4 publications

(2 citation statements)

References 13 publications

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“…The dielectric data analyses showed the existence of distribution of relaxation time in these materials. Akther and Bhuiyan reported the dielectric constant and AC electrical conductivity of plasma‐polymerized N,N,3,5 tetramethylaniline (TMA) (PPTMA) thin films as functions of frequency (100 < f < 10 5 Hz) and temperature (300 < T < 450 K). They found that the electrical conductivity is more dependent on temperature in the low frequency region than in the high frequency region.…”

Section: Introductionmentioning

confidence: 99%

Alternating Current Electrical Properties of Thin Films of Plasma Polymerized 1, 1, 3, 3‐Tetramethoxypropane

Afroze

Bhuiyan

2013

Adv Polym Technol

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Plasma-polymerized 1, 1, 3, 3-tetramethoxy-propane (PPTMP) thin films are prepared by using a capacitively coupled glow discharge reactor. The dielectric constant and the alternating current (AC) electrical conductivity of the PPTMP thin films are investigated in the frequency range from 30 to 10 4 Hz, and in the temperature range from 298 to 423 K. The AC electrical conduction mechanism in the PPTMP thin films is observed to be dominated by hopping of carriers between localized states. The trend of dielectric constant is to decrease slowly with the increasing frequency. The dielectric constant is weakly dependent on temperature (T). The dielectric loss tangent, tanδ decreases slightly with a broad minimum around 10 3 Hz and again increases with increasing frequency. C

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Section: Introductionmentioning

confidence: 99%

Alternating Current Electrical Properties of Thin Films of Plasma Polymerized 1, 1, 3, 3‐Tetramethoxypropane

Afroze

Bhuiyan

2013

Adv Polym Technol

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“…They reported that the increase in the charge mobility and the electrical conductivity were observed by the proper selection of metals with high work function as the electrode and by producing the films with low thickness. Akther and Bhuiyan [3,4] studied the current density-voltage (J-V) characteristics of plasma polymerized N,N,3,5-tetramethyaniline (PPTMA) thin films of different thicknesses at different temperatures with aluminium (Al) electrodes and reported that the films showed Ohmic behaviour at the lower voltage region and SCLC dominated by exponential trap distribution at the higher voltage region. The electronic conductivity of bilayer aniline-pyrrole thin films were studied by Morales et al [5].…”

Section: Introductionmentioning

confidence: 99%

Comparative Study on the Direct Current Electrical Conduction in Monolayer and Bilayer Plasma Polymerized Thin Films

Mostofa

Hashan

2022

J. Thin Films Res.

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A comparative study on the nature of direct current electrical conduction in the monolayer and bilayer plasma polymerized thin films has been discussed in this article. The plasma polymerized pyrrole (PPPy) monolayer, plasma polymerized N,N,3,5-tetramethylaniline (PPTMA) monolayer and plasma polymerized pyrrole-N,N,3,5-tetramethylaniline (PPPy-PPTMA) bilayer thin films were deposited at room temperature onto glass substrates by using a parallel plate capacitively coupled glow discharge reactor. The current density-voltage (J-V) characteristics and the conductivity-voltage (σ-V) characteristics have been studied to analyze the direct current conduction mechanism in PPPy, PPTMA monolayer and PPPy-PPTMA bilayer thin films. The observed results have been presented in this paper. The J-V and σ-V characteristics of PPPy and PPTMA monolayer thin films of different thicknesses indicated an increase in electrical conduction and also an increase in conductivity in the films of lower thicknesses. It is also observed that PPTMA thin films are more conductive than that of PPPy thin films. As a result the PPPy-PPTMA bilayer thin films of different thicknesses and different deposition time ratios indicated an increase in conductivity as the proportion of PPTMA is increased in the films. In addition to that, from the J-V and σ-V characteristics of PPPy, PPTMA and PPPy-PPTMA thin films of same thickness, it is observed that the current conduction and the conductivity in the bilayer thin films is less compared to the monolayer thin films. This unusual result has been explained by studying ideal and real bilayer thin films. It is also seen that in the low voltage region, the current conduction obeys Ohm’s law while the charge transport phenomenon appears to be the space charge limited conduction (SCLC) in the higher voltage regions.

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Structural and thickness-dependent optical parameters of plasma polymerized 2-vinylpyridine thin films

et al. 2022

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Dielectric Properties of Plasma Polymerized N,n,3,5 Tetramethylaniline Thin Films

Cited by 4 publications

References 13 publications

Alternating Current Electrical Properties of Thin Films of Plasma Polymerized 1, 1, 3, 3‐Tetramethoxypropane

Alternating Current Electrical Properties of Thin Films of Plasma Polymerized 1, 1, 3, 3‐Tetramethoxypropane

Comparative Study on the Direct Current Electrical Conduction in Monolayer and Bilayer Plasma Polymerized Thin Films

Structural and thickness-dependent optical parameters of plasma polymerized 2-vinylpyridine thin films

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