SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4380079139> ?p ?o ?g. }

Showing items 1 to 100 of ±140 with 100 items per page.

W4380079139 endingPage "8" @default.
W4380079139 startingPage "1" @default.
W4380079139 abstract "Bismuth oxide (Bi2O3) has attracted considerable research interest in test thin films made utilizing the reactive plasma sputtering (RPS) technology-assisted annealing treatment, allowing the development of diverse BixOx thin films. SEM, phase X-ray diffraction patterns, UV-Vis spectrometers, and D.C. two-probes are used to identify the crystallographic structure and assess the films’ optical-electrical properties. The XRD examination showed that forming Bi2O3 films with an amorphous to multiphase crystalline structure for sputtering time of 40 min was due to soda glass substrate temperature at a range of 30–35°C. Thin films of Bi2O3 crystal structures improved with annealing heat treatment at 200, 300, 400, and 500°C. Yet the formation of crystalline phase (β-Bi2O3 with δ-Bi2O3) Bi2O3 nanostructures occurred at higher temperatures. SEM images showed transparent particles highly affected by annealing temperatures. The nanostructures were about 102–510 nm long, and the diameter was 50–100 nm. The Bi2O3 film optical band gaps and nanostructures ranged from 2.75 to 3.05 eV. The annealing temperature differences affected the crystallite sizes, optical band gaps, and surface roughness. The findings showed that these differences caused the phase transition in Bi2O3 structures. The electrical calculation revealed that the electrical conductivity improved with annealing temperatures of 150–250°C while declining with temperature (300–500)°C with typical semiconductor films." @default.
W4380079139 created "2023-06-10" @default.
W4380079139 creator A5008389678 @default.
W4380079139 creator A5011981172 @default.
W4380079139 creator A5031678641 @default.
W4380079139 creator A5092127606 @default.
W4380079139 date "2023-06-09" @default.
W4380079139 modified "2023-09-25" @default.
W4380079139 title "The Role of Annealing Treatment on Crystallographic, Optical, and Electrical Features of Bi2O3 Thin Films Prepared Using Reactive Plasma Sputtering Technology" @default.
W4380079139 cites W1977056207 @default.
W4380079139 cites W1986355595 @default.
W4380079139 cites W1988698437 @default.
W4380079139 cites W1991134283 @default.
W4380079139 cites W1995739868 @default.
W4380079139 cites W2006920668 @default.
W4380079139 cites W2011995750 @default.
W4380079139 cites W2019430520 @default.
W4380079139 cites W2035170598 @default.
W4380079139 cites W2046022117 @default.
W4380079139 cites W2046417360 @default.
W4380079139 cites W2047932794 @default.
W4380079139 cites W2050272820 @default.
W4380079139 cites W2050386608 @default.
W4380079139 cites W2059237267 @default.
W4380079139 cites W2061628864 @default.
W4380079139 cites W2063654059 @default.
W4380079139 cites W2063929268 @default.
W4380079139 cites W2068009411 @default.
W4380079139 cites W2068035357 @default.
W4380079139 cites W2075887311 @default.
W4380079139 cites W2083512824 @default.
W4380079139 cites W2094219134 @default.
W4380079139 cites W2099617031 @default.
W4380079139 cites W2120035591 @default.
W4380079139 cites W2134544423 @default.
W4380079139 cites W2144176028 @default.
W4380079139 cites W2168956839 @default.
W4380079139 cites W2564994373 @default.
W4380079139 cites W2601154428 @default.
W4380079139 cites W2606680314 @default.
W4380079139 cites W2809160725 @default.
W4380079139 cites W286787165 @default.
W4380079139 cites W2889820473 @default.
W4380079139 cites W2897989703 @default.
W4380079139 cites W2909037899 @default.
W4380079139 cites W2949658261 @default.
W4380079139 cites W2969431795 @default.
W4380079139 cites W2975087909 @default.
W4380079139 cites W2984336665 @default.
W4380079139 cites W2993602694 @default.
W4380079139 cites W3012925168 @default.
W4380079139 cites W3048234051 @default.
W4380079139 cites W3048895364 @default.
W4380079139 cites W3089458235 @default.
W4380079139 cites W3094197981 @default.
W4380079139 cites W3115674581 @default.
W4380079139 cites W3120831775 @default.
W4380079139 cites W3125851756 @default.
W4380079139 cites W3179240168 @default.
W4380079139 cites W3202500611 @default.
W4380079139 cites W3203311117 @default.
W4380079139 cites W4200120225 @default.
W4380079139 cites W4220754335 @default.
W4380079139 cites W4220792926 @default.
W4380079139 cites W4221051434 @default.
W4380079139 cites W4225772898 @default.
W4380079139 cites W4229456129 @default.
W4380079139 cites W4285023295 @default.
W4380079139 cites W4285737350 @default.
W4380079139 cites W4294580793 @default.
W4380079139 cites W4307219221 @default.
W4380079139 cites W4360613194 @default.
W4380079139 cites W4360877801 @default.
W4380079139 doi "https://doi.org/10.1155/2023/8638512" @default.
W4380079139 hasPublicationYear "2023" @default.
W4380079139 type Work @default.
W4380079139 citedByCount "0" @default.
W4380079139 crossrefType "journal-article" @default.
W4380079139 hasAuthorship W4380079139A5008389678 @default.
W4380079139 hasAuthorship W4380079139A5011981172 @default.
W4380079139 hasAuthorship W4380079139A5031678641 @default.
W4380079139 hasAuthorship W4380079139A5092127606 @default.
W4380079139 hasBestOaLocation W43800791391 @default.
W4380079139 hasConcept C113196181 @default.
W4380079139 hasConcept C119599485 @default.
W4380079139 hasConcept C127413603 @default.
W4380079139 hasConcept C137637335 @default.
W4380079139 hasConcept C159985019 @default.
W4380079139 hasConcept C171250308 @default.
W4380079139 hasConcept C185592680 @default.
W4380079139 hasConcept C19067145 @default.
W4380079139 hasConcept C191897082 @default.
W4380079139 hasConcept C192562407 @default.
W4380079139 hasConcept C22423302 @default.
W4380079139 hasConcept C2777855556 @default.
W4380079139 hasConcept C42360764 @default.
W4380079139 hasConcept C43617362 @default.
W4380079139 hasConcept C49040817 @default.