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Development of modulation, pairing mechanism, and slip system with optimum vanadium substitution at Bi-sites in Bi-2212 ceramic structure

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dc.contributor.authors Ulgen, Asaf Tolga; Okur, Semih; Erdem, Umit; Terzioglu, Cabir; Turgay, Tahsin; Turkoz, Mustafa Burak; Yildirim, Gurcan
dc.date.accessioned 2024-02-23T11:13:58Z
dc.date.available 2024-02-23T11:13:58Z
dc.date.issued 2023
dc.identifier.issn 0254-0584
dc.identifier.uri http://dx.doi.org/10.1016/j.matchemphys.2023.128171
dc.identifier.uri https://hdl.handle.net/20.500.12619/101960
dc.description Bu yayının lisans anlaşması koşulları tam metin açık erişimine izin vermemektedir.
dc.description.abstract Present study focuses extensively on the change in electrical, superconducting and microhardness parameters with partial substitution of trivalent V+3 impurities replacing Bi+3 ions in Bi-2212 ceramic compound with the aid of dc electrical resistivity and microhardness test measurements. Experimental findings, calculation results, and phenomenological discussions provide that the optimum vanadium substitution level is found to be x = 0.01 in the Bi2.0-xVxSr2.0Ca1.1Cu2.0Oy (Bi-2212) ceramic system for the highest conductivity, crystallinity quality, superconducting, and mechanical performance features depending on the decreased microscopic structural problems. All the findings are wholly verified by scanning electron microscopy (SEM) and X-Ray diffraction (XRD) analyses. The dc electrical measurements indicate that the optimum vanadium ions support the pairing mechanism for the formation of new polaronic states in the clusters of microdomains, and hence expand superconducting energy gap due to the enhancement of amplitude part of pair wave function in the spin-density wave systems. The excess vanadium content degrades all the basic thermodynamics and quantum mechanical quantities mentioned due to the stress-induced phase transformation. Numerically, the Bi-2212 advanced ceramic matrix prepared by the optimum vanadium impurity is noticed to present the smallest residual resistivity value of 0.08 m & omega; cm, room temperature resistivity value of 8.84 m & omega; cm, and broadening degree of 0.36 K. Similarly, the ceramic material is found to possess the highest residual resistivity ratio of 3.05, carrier concen-tration number of 0.153041, critical transition offset and onset value of 84.66 K and 85.02 K, respectively. Besides, the microhardness findings reveal that the same compound with the least sensitivity to the applied test loads exhibits the largest Hv value of 4.799 GPa, Young's moduli of 393.303 GPa, yield strength of (0.969 GPa), and elastic stiffness coefficient of 15.5574 (GPa)7/4 under the applied test load of 0.245 N. The XRD in-vestigations show that the presence of optimum vanadium impurity supports the formation of a high super-conducting phase, c-axis length, and average crystallite size. All the findings are morphologically confirmed by the SEM images. It is found that the crystallographically best crystallinity quality and view of surface morphology is observed for the optimum vanadium substitution level. All in all, new higher properties for the conductivity, crystallinity quality, surface morphology, superconducting, and microhardness parameters based on the optimum vanadium replacement encourage the Bi-2212 crystal system to use in much more application places.
dc.language.iso English
dc.relation.isversionof 10.1016/j.matchemphys.2023.128171
dc.subject SUPERCONDUCTING MATRIX
dc.subject INSULATOR TRANSITION
dc.subject ELECTRONIC-STRUCTURE
dc.subject TRANSPORT-PROPERTIES
dc.subject OXIDATION-STATE
dc.subject TEMPERATURE
dc.subject METAL
dc.subject LOCALIZATION
dc.subject DEPENDENCE
dc.subject PROPERTY
dc.title Development of modulation, pairing mechanism, and slip system with optimum vanadium substitution at Bi-sites in Bi-2212 ceramic structure
dc.type Article
dc.contributor.authorID Erdem, Umit/0000-0002-0480-8176
dc.contributor.authorID Ulgen, Asaf Tolga/0000-0002-7112-5607
dc.contributor.authorID TURKOZ, MUSTAFA BURAK/0000-0002-4127-7650
dc.contributor.authorID TURGAY, Tahsin/0000-0003-0304-1097
dc.identifier.volume 307
dc.relation.journal MATER CHEM PHYS
dc.identifier.doi 10.1016/j.matchemphys.2023.128171
dc.identifier.eissn 1879-3312
dc.contributor.author Ulgen, AT
dc.contributor.author Okur, S
dc.contributor.author Erdem, U
dc.contributor.author Terzioglu, C
dc.contributor.author Turgay, T
dc.contributor.author Turkoz, MB
dc.contributor.author Yildirim, G
dc.relation.publicationcategory Makale - Uluslararası Hakemli Dergi - Kurum Öğretim Elemanı


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