Swarupa Ojha scite author profile

Swarupa Ojha

4Publications

35Citation Statements Received

0Citation Statements Given

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150

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Jadavpur University, CT Group Of Institutions

Publications

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Single polaron hopping in Fe doped glassy semiconductors: Structure–electrical transport relationship

Ghosh

Sengupta

Halder

et al. 2022

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The development of glassy nanocomposites, xFe-(1−x) (0.5 [Formula: see text]–0.4 CdO–0.1 ZnO) is particularly important not only for exploring their microstructures using x-ray diffraction, FT-IR, and UV–Vis techniques but also for exploring their electrical conduction mechanism in terms of hopping of small polarons. The presence of various nanophases, such as ZnO, CdO, Cd9.5Zn0.5, ZnV, and Zn3V2O8, have been identified and the size of estimated nanocrystallites is found to decrease with more incorporation of the Fe content in the compositions. As the value of lattice strain increases with the increase of the Fe content in the compositions, the present system becomes more and more unstable, which may be favorable for better electrical transport phenomena via the polaron hopping process. Electrical conductivity of the system has been analyzed using modified correlated barrier hopping model, Almond–West formalism, and the alternating-current conductivity scaling. Experimental data reveal that both optical photon and acoustical phonon transitions are responsible for the entire electrical conduction process. Polaron hopping is expected to be of percolation type, which has been validated from an estimated range of frequency exponents. All experimental data have been used to frame a schematic model to explore the conduction mechanism inside the present glassy system.

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Transport phenomena of Cu–S–Te chalcogenide nanocomposites: frequency response and AC conductivity

Ojha

Roy

Chamuah³

et al. 2020

Phys. Chem. Chem. Phys.

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AC conductivity and dielectric behavior of Cu-S-Te chalcogenide glassy system

Ojha

Roy

Chamuah³

et al. 2020

Materials Letters

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AC conductivity and electrical relaxation of a promising Ag2S-Ge-Te-Se chalcogenide glassy system

Chamuah

Ojha²,

Bhattacharya³

et al. 2022

Journal of Physics and Chemistry of Solids

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Swarupa Ojha

Single polaron hopping in Fe doped glassy semiconductors: Structure–electrical transport relationship

Transport phenomena of Cu–S–Te chalcogenide nanocomposites: frequency response and AC conductivity

AC conductivity and dielectric behavior of Cu-S-Te chalcogenide glassy system

AC conductivity and electrical relaxation of a promising Ag2S-Ge-Te-Se chalcogenide glassy system

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