H Chandrappa scite author profile

H Chandrappa

5Publications

21Citation Statements Received

90Citation Statements Given

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166

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Karnatak University

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Temperature-dependent ionic conductivity and transport properties of LiClO4-doped PVA/modified cellulose composites

et al. 2015

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This paper presents the investigation on physicochemical properties and ionic conductivity of LiClO 4-doped poly(vinyl alcohol) (PVA)/modified cellulose composites. The percolative behaviour of LiClO 4 with dc conductivity (σ dc) for different LiClO 4 weight fractions (p) related to transport dimensionality was also focused. The highest ionic conductivity of 9.79 × 10-6 S cm-1 was observed for 20 wt% LiClO 4 doping level at room temperature. The activation energies (E g) were estimated using temperature-dependent conductivity, which follows the Arrhenius and Vogel-Tammann-Fulcher (VTF) relation. The dynamic fragility (f) and activation energy (E g) vs. T g of polymer composites using equivalence of the both Williams-Landel-Ferry (WLF) and VTF equations were also correlated. Transport properties such as travel time of ions between sites (τ o), mobility (μ), diffusion coefficient (D) and number of transitions per unit time P(E) for normal cationic (Li +) hopping process of LiClO 4-doped PVA/mCellulose composites have been investigated using the Rice and Roth model.

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Physico-chemical properties of PVA-Nile blue (C20H20ClN3O) polymer composite structures for γ-ray protection: A comparative γ-ray irradiation studies

Chandrappa

Bhajantri

Mahantesha

et al. 2021

Radiation Physics and Chemistry

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Simple fabrication of PVA-ATE (Amaranthus tricolor leaves extract) polymer biocomposites: An efficient UV-Shielding material for organisms in terrestrial and aquatic ecosystems

Chandrappa

Bhajantri

Ranjitha³

et al. 2020

Optical Materials

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Development of Zn_1−xBa_xO nanoparticles reinforced poly(vinyl alcohol) macromolecular nanocomposite films: Eco‐friendly integrated materials for optical systems

Chandrappa

Bhajantri

ISMAYIL

et al. 2022

J of Applied Polymer Sci

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In this paper, we report the synthesis of Ba doped ZnO (Zn1−xBaxO, [x = 0.05]) nanoparticles (NPs) with a polycrystalline hexagonal wurtzite structure using chemical co‐precipitation method and prepared optically transparent, high refractive index polymer nanocomposite films by incorporating Zn1−xBaxO into poly(vinyl alcohol) (PVA) matrix. The average crystallite size of 104 nm was estimated by Scherrer's formula from X‐ray diffraction (XRD) patterns. The crystallinity of the composite film is significantly increased when Zn1−xBaxO NPs are added. The basic principles and theoretical aspects of scattering, transparency and refractive index of the composite structures are discussed. The formation of ZnBaO inter metallic bond was confirmed by the IR peaks that appear at the spectral wavenumbers (⁓596–608) cm−1. ATR‐FTIR spectral transmittance strongly proves the intermolecular interactions that occur in the composite film with molecular modification and various functional group impressions. UV–Vis absorption spectrum demonstrates a strong absorption edge around 379 nm owing to oxygen species corresponding to ZnBaO nanostructures in the composite films. The developed polymer composite films yielded strikingly higher RI value of ⁓(n = 2.5) having Abbe's number (υD = 10) with 57% plus transparency for 5 wt% NPs (ZBP‐3) with sufficiently low extinction coefficient values (k⁓10−4). Optical conductivity (σopt) was found to elevate from σopt ⁓ (4.465 × 1010) s−1 for pristine PVA to a σopt ⁓ (1.309 × 1012) s−1 for 5 wt% Zn0.95Ba0.05O filled composite films. Differential scanning calorimetry analysis showed a significant increase in the Tg value. The significant increase in Tm and Td > 311°C values indicates excellent thermal stability. Hence, the nanocomposite films demonstrated an integrated system of excellent refractive index, considerable visual transparency and excellent thermal stability, establishing their potential for use as a wider spectrum of optical system requirements.

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PLT and DBAR Investigations on MPDMAPP Doped PVA/PVP Blend

Bhajantri

Ravindrachary

Lobo

et al. 2015

J. Phys.: Conf. Ser.

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H Chandrappa

Temperature-dependent ionic conductivity and transport properties of LiClO4-doped PVA/modified cellulose composites

Physico-chemical properties of PVA-Nile blue (C20H20ClN3O) polymer composite structures for γ-ray protection: A comparative γ-ray irradiation studies

Simple fabrication of PVA-ATE (Amaranthus tricolor leaves extract) polymer biocomposites: An efficient UV-Shielding material for organisms in terrestrial and aquatic ecosystems

Development of Zn_1−xBa_xO nanoparticles reinforced poly(vinyl alcohol) macromolecular nanocomposite films: Eco‐friendly integrated materials for optical systems

PLT and DBAR Investigations on MPDMAPP Doped PVA/PVP Blend

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H Chandrappa

Temperature-dependent ionic conductivity and transport properties of LiClO4-doped PVA/modified cellulose composites

Physico-chemical properties of PVA-Nile blue (C20H20ClN3O) polymer composite structures for γ-ray protection: A comparative γ-ray irradiation studies

Simple fabrication of PVA-ATE (Amaranthus tricolor leaves extract) polymer biocomposites: An efficient UV-Shielding material for organisms in terrestrial and aquatic ecosystems

Development of Zn1−xBaxO nanoparticles reinforced poly(vinyl alcohol) macromolecular nanocomposite films: Eco‐friendly integrated materials for optical systems

PLT and DBAR Investigations on MPDMAPP Doped PVA/PVP Blend

Contact Info

Product

Resources

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Development of Zn_1−xBa_xO nanoparticles reinforced poly(vinyl alcohol) macromolecular nanocomposite films: Eco‐friendly integrated materials for optical systems