K. S. Raju scite author profile

K. S. Raju

5Publications

61Citation Statements Received

88Citation Statements Given

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Affiliations

University of Hyderabad, University of Madras, Mahatma Gandhi University

Publications

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Vapor-liquid equilibrium data for systems ethylbenzene-anisole and p-xylene-anisole

Sood¹,

Bagga²,

Raju³

1972

J. Chem. Eng. Data

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Psg°i s the vapor pressure of pure mercury at the temperature, T, under study. Png is the mercury vapor pressure at the temperature, T, under study. The variations of the activity coefficient with the temperature are within the range of the precision of the measurements: ~1_2%)X "Hg / The values of 7Hg are indicated in Table II. For the solid liquid phase, we used the liquidus curve given by Ito et al. ( 5). The activity coefficient of mercury in the presence of indium can be considered as independent of the temperature in the range of temperature studied. On the other hand, the dependence as regards the concentration of indium is important and the mercury-indium amalgams deviate negatively from ideality.

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Structural, microstructural, and ferroelectric studies of polyvinylidene fluoride‐hexafluoropropylene (PVDF‐HFP) thin films in Ag/Cu/PVDF‐HFP/Cu capacitor structures

Roy

Chikkonda

Kishor

et al. 2022

J of Applied Polymer Sci

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In this article, the structural, microstructural, and ferroelectric characteristics of polyvinylidene fluoride‐hexafluoropropylene (PVDF‐HFP) thin films in Ag/Cu/PVDF‐HFP/Cu capacitor structures have been investigated. The bottom interfaces glass or Cu/glass influence upon the PVDF‐HFP thin‐film crystal structure and microstructure have been evaluated using grazing incidence X‐ray diffractometer and atomic force microscopy. Quasi‐static current–voltage loops, the polarization versus electric field loops measured at varied applied frequencies (100 mHz–1 Hz) and electric field amplitudes (2.5–27.5 MV/m) are utilized to comprehend the ferroelectric characteristics of PVDF‐HFP thin films. Furthermore, the observed linear dependency between coercive field and frequency is linked to the homogenous domain growth model proposed by Kolmogorov‐Avrami‐Ishibashi.

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Vapor-liquid equilibrium data for the systems 2-methoxyethanol-ethylbenzene, 2-methoxyethanol-p-xylene, and 2-ethoxyethanol-p-xylene

Kumar¹,

Raju²

1977

J. Chem. Eng. Data

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Experimental vapor-liquid equilibrium data were obtained for the binary systems 2-methoxyethanol-ethylbenzene, 2-methoxyethanol-p-xylene, and 2-ethoxyethanol-pxylene at 760 mmHg. The activity coefficients were calculated taking into account the nonideality of the vapor phase. The data satisfied the thermodynamic consistency tests of Herington, Norrish-Twigg, and Black. The correlations of van Laar, Redlich-Kister, Wilson, NRTL, and Wiehe-Bagley, with the constants evaluated by the method of nonlinear least squares, represented the data well.

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Some structural aspects of neodymium praseodymium oxalate single crystals grown in hydro silica gels

1997

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The mixed crystals of neodymium praseodymium oxaiate are grown by the diffusion of a mixture of aqueous solutions of neodymium nitrate and praseodymium nitrate (as an upper reactant) into the set gel embedded with oxalic acid. By varying the concentration (by volume) of rare earth nitrates in the upper reactant, the incorporation of Nd and Pr in the mixed crystals has been studied. Tabular crystals with the well defined hexagonal basal planes are observed in the mixed crystals of varying concentrations. X-ray diffraction patterns of these powdered samples reveal that these mixed crystals are 'isostructural', while IR and FTIR spectra establish the presence of oxalate groups. TGA and DSC analyses show the correctness of the chemical formula for the mixed crystals, by the release of water molecules (endothermic) and of CO and CO2 (exothermic), with the rare earth oxides as the stable residue. X-ray fluorescence (XRF) and energy dispersive X-ray analyses (EDAX) establish the presence of heavy rare earth elements qualitatively and to a good extent quantitatively. X-ray photoelectron spectroscopic (XPS) studies confirm the presence of rare earth elements (Nd and Pr) as their respective oxides. The findings of these techniques of characterization are in excellent agreement with the proposed empirical structure for the mixed rare earth oxalates. The implications are discussed.

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Radiation effects in calcite

Raju

1977

Pramana - J. Phys.

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K. S. Raju

Vapor-liquid equilibrium data for systems ethylbenzene-anisole and p-xylene-anisole

Structural, microstructural, and ferroelectric studies of polyvinylidene fluoride‐hexafluoropropylene (PVDF‐HFP) thin films in Ag/Cu/PVDF‐HFP/Cu capacitor structures

Vapor-liquid equilibrium data for the systems 2-methoxyethanol-ethylbenzene, 2-methoxyethanol-p-xylene, and 2-ethoxyethanol-p-xylene

Some structural aspects of neodymium praseodymium oxalate single crystals grown in hydro silica gels

Radiation effects in calcite

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