SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2896904484> ?p ?o ?g. }

Showing items 1 to 100 of ±183 with 100 items per page.

W2896904484 endingPage "015004" @default.
W2896904484 startingPage "015004" @default.
W2896904484 abstract "The achievement of high critical currents in 'all-chemical' YBa2Cu3O7−δ thick films from low cost and versatile chemical solution deposition (CSD) methodology is still an open issue. Here we report a study of the nucleation and growth conditions to achieve YBa2Cu3O7−δ films in excess of 1 micron using single pass inkjet printing or multideposition of low-fluorine metalorganic precursors. Growth conditions of thick YBa2Cu3O7−δ layers are first investigated on LaAlO3, where there is no interfacial chemical reactivity. The second architecture investigated is an 'all-chemical' CSDCe0.9Zr0.1O2(CZO)/YSZ multilayer on single crystal substrates which serves as model system for coated conductors. Finally, the 'all-chemical' coated conductor architecture CSDYBa2Cu3O7/CSDCZO/ABADYSZ/stainless steel, where ABAD stands for alternating beam assisted deposition, is investigated. The nucleation conditions of YBa2Cu3O7−δ films on top of CΖΟ cap layers have been selected to minimize the formation of the BaCeO3 phase at the interface. We demonstrate that by combining the use of Ag additives in the starting YBCO solution and processing conditions leading to low supersaturation (high water pressure and low temperature) we can achieve ∼1 μm thick YBa2Cu3O7−δ films and coated conductors with high critical currents of = 390 and 100 A/cm-w, respectively, at 77 K and self-field. The achieved control of the interfacial reactivity with CeO2 cap layers opens a route for further increasing film thickness and critical currents in 'all-chemical' YBa2Cu3O7−δ coated conductors." @default.
W2896904484 created "2018-10-26" @default.
W2896904484 creator A5006032785 @default.
W2896904484 creator A5019948278 @default.
W2896904484 creator A5026928493 @default.
W2896904484 creator A5066503317 @default.
W2896904484 creator A5068069285 @default.
W2896904484 creator A5069721965 @default.
W2896904484 creator A5071028967 @default.
W2896904484 creator A5084312679 @default.
W2896904484 date "2018-11-23" @default.
W2896904484 modified "2023-10-14" @default.
W2896904484 title "Growth of all-chemical high critical current YBa2Cu3O7−δ thick films and coated conductors" @default.
W2896904484 cites W1496719859 @default.
W2896904484 cites W1543295788 @default.
W2896904484 cites W1579096533 @default.
W2896904484 cites W1628357716 @default.
W2896904484 cites W1669725692 @default.
W2896904484 cites W1966262687 @default.
W2896904484 cites W1970280025 @default.
W2896904484 cites W1973438034 @default.
W2896904484 cites W1977185105 @default.
W2896904484 cites W1979426542 @default.
W2896904484 cites W1982698051 @default.
W2896904484 cites W1982782095 @default.
W2896904484 cites W1986677883 @default.
W2896904484 cites W1987502286 @default.
W2896904484 cites W1988275946 @default.
W2896904484 cites W1998544621 @default.
W2896904484 cites W1998762436 @default.
W2896904484 cites W1999534949 @default.
W2896904484 cites W2001529454 @default.
W2896904484 cites W2006359984 @default.
W2896904484 cites W2008598589 @default.
W2896904484 cites W2012420217 @default.
W2896904484 cites W2015022455 @default.
W2896904484 cites W2019956358 @default.
W2896904484 cites W2020550206 @default.
W2896904484 cites W2022606370 @default.
W2896904484 cites W2024343876 @default.
W2896904484 cites W2025015233 @default.
W2896904484 cites W2029290154 @default.
W2896904484 cites W2029648277 @default.
W2896904484 cites W2033923767 @default.
W2896904484 cites W2034709577 @default.
W2896904484 cites W2035075171 @default.
W2896904484 cites W2035808220 @default.
W2896904484 cites W2041082508 @default.
W2896904484 cites W2042256893 @default.
W2896904484 cites W2042859897 @default.
W2896904484 cites W2049824697 @default.
W2896904484 cites W2050435422 @default.
W2896904484 cites W2051998976 @default.
W2896904484 cites W2052039419 @default.
W2896904484 cites W2053804197 @default.
W2896904484 cites W2058407499 @default.
W2896904484 cites W2060380677 @default.
W2896904484 cites W2065353294 @default.
W2896904484 cites W2075479858 @default.
W2896904484 cites W2080662051 @default.
W2896904484 cites W2080712775 @default.
W2896904484 cites W2081712440 @default.
W2896904484 cites W2090146848 @default.
W2896904484 cites W2091990344 @default.
W2896904484 cites W2093740299 @default.
W2896904484 cites W2102293195 @default.
W2896904484 cites W2102929347 @default.
W2896904484 cites W2107207390 @default.
W2896904484 cites W2134428003 @default.
W2896904484 cites W2153565123 @default.
W2896904484 cites W2167366656 @default.
W2896904484 cites W2172159593 @default.
W2896904484 cites W2301752671 @default.
W2896904484 cites W2319780328 @default.
W2896904484 cites W2332964232 @default.
W2896904484 cites W2474975510 @default.
W2896904484 cites W2550662297 @default.
W2896904484 cites W2596236670 @default.
W2896904484 cites W2734350549 @default.
W2896904484 cites W2768718154 @default.
W2896904484 cites W2770414204 @default.
W2896904484 cites W2783043456 @default.
W2896904484 cites W2793247870 @default.
W2896904484 cites W3102068973 @default.
W2896904484 cites W4236949229 @default.
W2896904484 cites W4376043533 @default.
W2896904484 doi "https://doi.org/10.1088/1361-6668/aaea4e" @default.
W2896904484 hasPublicationYear "2018" @default.
W2896904484 type Work @default.
W2896904484 sameAs 2896904484 @default.
W2896904484 citedByCount "24" @default.
W2896904484 countsByYear W28969044842019 @default.
W2896904484 countsByYear W28969044842020 @default.
W2896904484 countsByYear W28969044842021 @default.
W2896904484 countsByYear W28969044842022 @default.
W2896904484 countsByYear W28969044842023 @default.
W2896904484 crossrefType "journal-article" @default.
W2896904484 hasAuthorship W2896904484A5006032785 @default.