Your search keyword '"Kollipara VS"' showing total 5 results

1. Exceptional dielectric and varistor properties of Sr, Zn and Sn co-doped calcium copper titanate ceramics.

Author

Dhavala L, Bhimireddi R, Muthukumar V S, Kollipara VS, and Varma KBR

Abstract

Calcium copper titanate (CCTO) powders associated with the chemical formula Ca 1- x Sr x Cu 3- y Zn y Ti 4- z Sn z O 12 (where x , y , z varying from 0 to 0.1) were synthesized via a solid-state reaction route. Dense ceramics (>96% of theoretical density) were obtained by sintering these powders comprising micrometer-sized grains at appropriate temperatures. X-ray powder diffraction studies confirmed the formation of monophasic CCTO cubic phase, with no traceable secondary phases present. The lattice parameter ' a ' was found to increase on increasing the dopant concentration. The microstructural studies performed on these ceramics confirmed a decrease in mean grain size (18 μm to 5 μm) with the increase in Sr, Zn and Sn doping concentrations as compared to that of undoped CCTO ceramics though they were sintered at the same temperature and duration (1100 °C/15 h). The dielectric studies (dielectric constant ( ε ') and the dielectric loss ( D )) conducted in a wide frequency range (10 2 -10 7 Hz) demonstrated an increase in ε ' and a decrease in D on increasing the doping concentration. Impedance analysis (Nyquist plots) performed on these ceramics revealed a significant increase in grain boundary resistance. The highest value of grain boundary resistance (6.05 × 10 8 Ω) (in fact this value was 100 times higher than that of pure CCTO) was obtained for the composition corresponding to x = y = z = 0.075 and intriguingly the ceramic pertaining to this composition exhibited enhanced ε ' (1.7 × 10 4 ) and lower D (0.024) at 1 kHz. Further, these co-doped CCTO ceramics exhibited substantial improvement in breakdown voltages and nonlinear coefficients ( α ). The temperature independent (30 -210 °C) dielectric response of these samples qualifies them to be suitable dielectric materials for the fabrication of multilayer ceramic chip capacitors., Competing Interests: There are no conflicts of interest to declare., (This journal is © The Royal Society of Chemistry.)

Published

2023

2. Synergistic effect of trivalent (Gd 3+ , Sm 3+ ) and high-valent (Ti 4+ ) co-doping on antiferromagnetic YFeO 3 .

Author

Bharadwaj PSJ, Kundu S, Kollipara VS, and Varma KBR

Abstract

Monophasic polycrystalline powders of Y 1- x R x Fe 1-(4/3) y Ti y O 3 (R = Sm, Gd; x = 0.05, 0.10, 0.15; y = 0.05) were successfully synthesized via a low temperature solid-state synthesis route. The X-ray diffraction and Raman spectroscopy studies indicate that all the calcined powders with R 3+ (Gd 3+ , Sm 3+ ) at Y 3+ and Ti 4+ at Fe 3+ sites were crystallized in an orthorhombic phase associated with a change in lattice parameters. The Williamson-Hall method employed to calculate the strain revealed that the strain increased with the increased concentration of dopants ((Gd 3+ , Sm 3+ ) at Y 3+ ) compared to an increase in the size of crystallites, corroborating the findings of SEM. Analysis of diffuse reflectance spectra indicated a drop in bandgap from 1.93 eV to 1.86 eV and 1.96 eV to 1.91 eV for Gd, Ti co-doping and Sm, Ti co-doping respectively, demonstrating the capacity of the synthesized powders to absorb visible light. Absorbance spectra also revealed the existence of mixed states of Fe 3+ and Fe 4+ which was corroborated by XPS studies. The magnetic hysteresis loop analysis at room temperature illustrated that with co-doping, there is a strong enhancement in magnetization as well as coercivity, suggesting a strong transition from anti-ferromagnetic behaviour to ferromagnetic behaviour. Pertaining to the greatly improved optical and magnetic properties with the addition of (Gd 3+ , Sm 3+ ) at Y 3+ and Ti 4+ at Fe 3+ sites, these materials are anticipated to be of potential use in various applications., Competing Interests: There are no conflicts to declare., (This journal is © The Royal Society of Chemistry.)

Published

2020

3. Structural, optical and magnetic properties of Sm 3+ doped yttrium orthoferrite (YFeO 3 ) obtained by sol-gel synthesis route.

Author

Bharadwaj PSJ, Kundu S, Kollipara VS, and Varma KBR

Abstract

Fine powders of Y 1-x Sm x FeO 3 (x  =  0, 0.05, 0.10, 0.15) were synthesized via citrate based sol-gel route. While the as synthesized powders were amorphous, the calcined (900 °C/8 h) powders were confirmed to be polycrystalline by x-ray powder diffraction (XRD) studies. The calcined powders were found to crystallize in an orthorhombic structure associated with the lattice parameters a  =  5.59 Å, b  =  7.60 Å, c  =  5.28 Å. These lattice parameters increased with the increase in Sm 3+ content at yttrium sites. The strain that was obtained by the Williamson-Hall method increased with the increase in dopant (Sm 3+ ) concentration vis-à-vis a decrease in crystallite size. Diffuse reflectance spectroscopic studies suggest an increase in band gap as Sm doping level increased. Significant enhancement in magnetization associated with a decrease in coercive field accompanied by a transition from anti-ferromagnetic to soft ferromagnetic behaviour in Sm doped YFeO 3 were encountered. It is hoped that these materials with the enhanced magnetic properties could be of potential use for multifarious applications.

Published

2020

4. Correlation of hemodynamically significant internal carotid stenosis with pulsed Doppler frequency analysis.

Author

Blackshear WM Jr, Lamb SL, Kollipara VS, Anderson JD, Murtagh FR, Shah CP, and Farber MS

Subjects

Carotid Artery Diseases diagnostic imaging, Carotid Artery Diseases surgery, Carotid Artery, Internal diagnostic imaging, Carotid Artery, Internal physiopathology, Constriction, Pathologic, Endarterectomy, Humans, Radiography, Systole, Blood Pressure, Carotid Artery Diseases physiopathology, Ultrasonography

Abstract

Systolic and mean pressure gradients across internal carotid stenoses were measured at the time of carotid endarterectomy in the arteries of 90 patients, all of whom underwent angiography. Eighty-two of these patients also had pulsed Doppler ultrasonic arteriography with real-time spectrum analysis. There were 71 (79%) high grade stenoses of greater than 50% diameter reduction by angiography. Significant systolic pressure gradients (greater than or equal to 10 mmHg) were identified in 41 patients (46%), 38 (46%) of whom underwent ultrasonic evaluation. A pulsed Doppler frequency measured within the stenosis equal to or greater than 6.5 kiloHertz had a sensitivity of 94.7% (36/38) in identifying pressure reducing lesions with a specificity of 47.7% (21/44). Positive predictive value was 61% (36/59). Angiographic criteria (50% diameter reduction) exhibited a sensitivity of 97.6% (40/41), a specificity of 36.7% (18/49) and a positive predictive value of 56.3% (40/71). Negative predictive value was 94.7% for angiography and 91.3% for ultrasonic arteriography. A pulsed Doppler frequency equal to or greater than 6.5 kiloHertz appears to accurately identify lesions that are at risk to reduce distal internal carotid pressure under operative conditions with a sensitivity similar to angiography. This criterion has a positive predictive value and specificity that is slightly superior to angiography and a high negative predictive value. Pulsed Doppler spectrum analysis provides physiologic information relative to blood flow velocity that is complimentary to the anatomic data provided by angiography for assessing the potential for hemodynamic significance of internal carotid stenoses.

Published

1984

5. Pulsed Doppler frequency and carotid stenosis.

Author

Blackshear WM Jr, Seifert KB, Lamb S, Kollipara VS, Murtagh FR, Shah CP, and Farber MS

Subjects

Carotid Artery, Internal pathology, Constriction, Pathologic diagnosis, Humans, Ultrasonics, Carotid Artery Diseases diagnosis, Ultrasonography

Abstract

Two hundred and forty-two internal carotid arteries (ICA) were evaluated by independently interpreted arteriography and pulsed Doppler spectrum analysis using ultrasonic arteriography to evaluate the ability of peak systolic frequency (PSF) to predict the degree of internal carotid stenosis. Mean PSF in the 129 (53.3%) high grade ICA stenoses of greater than 50% diameter reduction was 6.55 +/- 0.14 (SEM) khz, while mean PSF in the 113 (46.7%) low grade (less than 50% diameter reduction) stenoses was 3.38 +/- 0.12 (SEM) kHz (P less than 0.0001). Receiver-operator characteristic (ROC) analysis revealed that PSFs of 4.5 kHz (sensitivity 87%, specificity 88%) and 5.0 kHz (sensitivity 83%, specificity 93%) were best for identifying a 50% diameter stenosis. Positive predictive value of 5.0 kHz was 93% (107/115) and negative predictive value was 82.7% (105/127). Linear regression analysis of PSF in kHz versus percentage diameter reduction yielded the equation: % stenosis = 10.7 (PSF) - 4.1 (r = 0.76). A nonlinear equation was also derived: % stenosis = 61.9 - 33.5 (PSF) + 8.7 (PSF)2 - 0.5 (PSF)3 (r = 0.77). Based on this analysis peak systolic frequency criteria measured by pulsed Doppler spectrum analysis appear to be useful for distinguishing high grade from low grade stenoses. Both the linear and nonlinear equations further suggest that PSF can more precisely quantitate the degree of ICA luminal narrowing.

Published

1987