Magnetoresistivity studies for BiPb-2223 phase added by BaSnO3 nanoparticles

Barakat, M. M.; Habanjar, Khulud

doi:10.1007/s40145-017-0222-8

Cited by 20 publications

(4 citation statements)

References 47 publications

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“…where β is a magnetic field constant orientated with respect to basal plane [52]. By using the data presented in Fig.5, we have obtained β values of 0.62, 0.63, 0.64, 0.61, and 0.57 (see Table- ΔT ≈ H n ≈ H β/q…”

Section: Resultsmentioning

confidence: 92%

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Effect of Na-substitution on magnetoresistance and flux pinning energy of Bi-2212 ceramics prepared via hot-forging process

Özçelık

Gürsul

Nane

et al. 2018

J Mater Sci: Mater Electron

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In this study, polymerization method with polyethyleneimine, followed by hot-forging process was used to synthesize bulk textured Bi 2 Sr 2 Ca 1-x Na x Cu 2 O y (x=0.0, 0.05, 0.075 0.1, and 0.15) ceramics. Magnetoresistance performance of samples was studied by change of flux pinning mechanism. The effect of Na-substitution on the magnetoresistance, flux pinning energy, irreversibility field, upper critical magnetic field and coherence length was evaluated in the framework of Thermally Activated Flux Flow (TAFF) model. A resistivity transition broadening under various magnetic fields (0-5 T) was analyzed. By using the resistivity data, the upper critical field and the coherence length at T=0 K were deduced. For H c, H C2 (0) and (0) values were calculated as 31

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Section: Resultsmentioning

confidence: 92%

“…Accordingly, these regions cause the weakening of vortex pinning strength due to the reduction of the superconducting current path [52]. On the other hand, the decrease in ΔT by increasing the Na-content might be due to the decrease in microscopic inhomogeneous superconducting phases and/or an increment of intergrain connectivity.…”

Section: Resultsmentioning

confidence: 99%

Effect of Na-substitution on magnetoresistance and flux pinning energy of Bi-2212 ceramics prepared via hot-forging process

Özçelık

Gürsul

Nane

et al. 2018

J Mater Sci: Mater Electron

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“…In addition, the distinct diffraction peaks at 30.6°, 43.9°, and 54.5°, which were correspondingly assigned to (110), (200), and (211) planes of BaSnO 3 , were observed in the BaSnO 3 /g‐C 3 N 4 composites (CN‐ x BSO, x = 0.04, 0.10, and 0.40). [ 31,32 ] Moreover, a single weak diffraction peak at 24.9° belonging to BaCO 3 appeared in the BaSnO 3 /g‐C 3 N 4 samples, indicating that the chemical reaction of generating BaCO 3 occurred during the reaction process, which could not be easily avoided. [ 33–36 ] It was worth noting that the peak intensities of both (100) and (002) planes of g‐C 3 N 4 from CN‐ x BSO samples obviously decreased when the amount of BSO in the composites increased, which were attributed to the remarkable inhibition effect for BSO on the surface of CN structure that induced diffraction reduction in principle, indicating that BSO was successfully deposited on the surface of CN.…”

Section: Resultsmentioning

confidence: 99%

Nanosized BaSnO₃ as Electron Transport Promoter Coupled with g‐C₃N₄ toward Enhanced Photocatalytic H₂ Production

Kang

Shi

et al. 2021

Advanced Sustainable Systems

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A series of type‐II BaSnO3/g‐C3N4 heterojunction composites are prepared by anchoring BaSnO3 on g‐C3N4 via a facile solvothermal method. BaSnO3 is applied as an electron transport promoter in the field of photocatalytic H2 production under visible light for the first time. BaSnO3 shows excellent performance in collecting and transferring photogenerated electrons from g‐C3N4 to reactive sites, thus effectively inhibiting the recombination of photogenerated electron–holes. Consequently, the photocatalytic H2‐production activity of BaSnO3/g‐C3N4 composite is enhanced up to 3.2 times compared to that of pristine g‐C3N4. This work provides a meaningful reference for the application of electron transport materials in the field of photocatalysis.

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“…Many factors are significantly influencing the phase formation kinetics of Bi-2223 HTS including the nominal composition of the precursor powder, thermal processing time and temperature, particle size of dopants, milling treatment of precursor, texturing and synthesis atmosphere [15]. Among these factors, the micro -and nanosized dopants is the most dynamic part for improving the intergrain connectivity which resulted in higher Tc than Bi-2223 [5,[16][17][18].…”

Section: Introductionmentioning

confidence: 99%

Superconducting and Electrical Resistivity of HTS Bi-2223 Doped by (Cr2O3:SnO)x Nanoparticles

Khalil

Kashyout

Hemeda

et al. 2020

MSF

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The addition of metal nanoparticles in the Bi-based superconductors has shown the disorder produced by the cations incorporation in the crystal structure affects the TC (Critical temperature) of the system. the addition of new mixture of (Cr2O3: SnO)x on high temperature superconductors HTS Bi1.6Pb0.4 Sr2Ca2Cu3O10+δ (Bi-2223) with ratio 1:1 where x = 0.0, 0.05, 0.10, 0.15 and 0.20 was investigated by solid-state reaction technique was used to prepare superconductor samples. Samples were characterized by X-Ray Diffraction (XRD), Field Emission Scanning Electron Microscopy (FS-EM), Energy Dispersive X-ray (EDX), and electrical resistivity. the results of XRD proved that the structure of 2223 remains the same even with the addition of (Cr2O3: SnO)x nanoparticles. The phase 2223 has the majority even phase Bi-2212 and phase Ca2PbO4 showed a contribution inside structure. As a result of the change physico-chemical properties resistivity of the doped optimized sample x = 0.10 was increasing 2.2 K approximately rather than the undoped one then decreased gradually up to x = 0.20. From resistivity measurement, the TC of 2223 doped with (Cr2O3: SnO)x at x = 0.10 was 113.2 K approximately. The addition of metal oxides in superconductor materials has been considered to be one of the most promising materials for large scale applications in superconducting industry.

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Magnetoresistivity studies for BiPb-2223 phase added by BaSnO3 nanoparticles

Cited by 20 publications

References 47 publications

Effect of Na-substitution on magnetoresistance and flux pinning energy of Bi-2212 ceramics prepared via hot-forging process

Effect of Na-substitution on magnetoresistance and flux pinning energy of Bi-2212 ceramics prepared via hot-forging process

Nanosized BaSnO₃ as Electron Transport Promoter Coupled with g‐C₃N₄ toward Enhanced Photocatalytic H₂ Production

Superconducting and Electrical Resistivity of HTS Bi-2223 Doped by (Cr<sub>2</sub>O<sub>3</sub>:SnO)<sub>x</sub> Nanoparticles

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Magnetoresistivity studies for BiPb-2223 phase added by BaSnO3 nanoparticles

Cited by 20 publications

References 47 publications

Effect of Na-substitution on magnetoresistance and flux pinning energy of Bi-2212 ceramics prepared via hot-forging process

Effect of Na-substitution on magnetoresistance and flux pinning energy of Bi-2212 ceramics prepared via hot-forging process

Nanosized BaSnO3 as Electron Transport Promoter Coupled with g‐C3N4 toward Enhanced Photocatalytic H2 Production

Superconducting and Electrical Resistivity of HTS Bi-2223 Doped by (Cr<sub>2</sub>O<sub>3</sub>:SnO)<sub>x</sub> Nanoparticles

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Nanosized BaSnO₃ as Electron Transport Promoter Coupled with g‐C₃N₄ toward Enhanced Photocatalytic H₂ Production