SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W811054497> ?p ?o ?g. }

Showing items 1 to 100 of ±110 with 100 items per page.

W811054497 endingPage "290" @default.
W811054497 startingPage "280" @default.
W811054497 abstract "Abstract Non-crystalline thin films of chalcogenide Cd 50 S 50−x Se x system (30 ≤ x ≤ 50) were obtained by thermal evaporation technique onto a pre-cleaned glass substrate at a vacuum of 8.2 × 10 −4 Pa. The deposition rate and film thickness were kept constant at about 8 nm/s and 200 nm, respectively. Amorphous/crystalline nature and chemical composition of films have been checked using X-ray diffraction and energy dispersive X-ray spectroscopy (EDX). Optical properties of thin films were investigated and studied using the corrected transmittance, T(λ) and corrected reflectance, R(λ) measurements. Obtained data reveal that, the indirect optical energy gap (E g ) was decreased from 2.21 to 1.57 eV. On the contrary, Urbach energy (band tail width), E U was found to be increased from 0.29 to 0.45 eV. This behavior is believed to be associated with the increase of Se-content instead of S-content in the thin films of Cd 50 S 50−x Se x system. Chemical bond approach model, CBA was used to analyze the obtained values of E g and E U . Optical density, skin depth, extinction coefficient, refractive index and optical conductivity of chalcogenide CdSSe thin films were discussed as functions of Se-content. Using Wemple-DiDomenico single oscillator model, the refractive index dispersion and energy parameters and their dependence on Se content were studied." @default.
W811054497 created "2016-06-24" @default.
W811054497 creator A5030167289 @default.
W811054497 creator A5068733302 @default.
W811054497 date "2015-11-01" @default.
W811054497 modified "2023-10-11" @default.
W811054497 title "Influence of composition on optical and dispersion parameters of thermally evaporated non-crystalline Cd50S50−xSex thin films" @default.
W811054497 cites W1585041810 @default.
W811054497 cites W1796984272 @default.
W811054497 cites W1965956242 @default.
W811054497 cites W1968211581 @default.
W811054497 cites W1974165942 @default.
W811054497 cites W1974639978 @default.
W811054497 cites W1975090305 @default.
W811054497 cites W1975225867 @default.
W811054497 cites W1976541231 @default.
W811054497 cites W1977213276 @default.
W811054497 cites W1991897596 @default.
W811054497 cites W1996644210 @default.
W811054497 cites W2007445068 @default.
W811054497 cites W2009083407 @default.
W811054497 cites W2012089174 @default.
W811054497 cites W2016613982 @default.
W811054497 cites W2022699919 @default.
W811054497 cites W2025103181 @default.
W811054497 cites W2025179904 @default.
W811054497 cites W2033502292 @default.
W811054497 cites W2036860084 @default.
W811054497 cites W2040875144 @default.
W811054497 cites W2040955030 @default.
W811054497 cites W2042324860 @default.
W811054497 cites W2044045438 @default.
W811054497 cites W2046218546 @default.
W811054497 cites W2046241143 @default.
W811054497 cites W2046320563 @default.
W811054497 cites W2047572600 @default.
W811054497 cites W2052698947 @default.
W811054497 cites W2059859772 @default.
W811054497 cites W2061001550 @default.
W811054497 cites W2062370148 @default.
W811054497 cites W2064310644 @default.
W811054497 cites W2065549128 @default.
W811054497 cites W2076269325 @default.
W811054497 cites W2084885390 @default.
W811054497 cites W2087610644 @default.
W811054497 cites W2088271944 @default.
W811054497 cites W2089904918 @default.
W811054497 cites W2091795607 @default.
W811054497 cites W2093100637 @default.
W811054497 cites W2113353077 @default.
W811054497 cites W2167694731 @default.
W811054497 cites W2322354531 @default.
W811054497 cites W2526851728 @default.
W811054497 cites W282696629 @default.
W811054497 cites W400782784 @default.
W811054497 doi "https://doi.org/10.1016/j.jallcom.2015.06.231" @default.
W811054497 hasPublicationYear "2015" @default.
W811054497 type Work @default.
W811054497 sameAs 811054497 @default.
W811054497 citedByCount "419" @default.
W811054497 countsByYear W8110544972015 @default.
W811054497 countsByYear W8110544972016 @default.
W811054497 countsByYear W8110544972017 @default.
W811054497 countsByYear W8110544972018 @default.
W811054497 countsByYear W8110544972019 @default.
W811054497 countsByYear W8110544972020 @default.
W811054497 countsByYear W8110544972021 @default.
W811054497 countsByYear W8110544972022 @default.
W811054497 countsByYear W8110544972023 @default.
W811054497 crossrefType "journal-article" @default.
W811054497 hasAuthorship W811054497A5030167289 @default.
W811054497 hasAuthorship W811054497A5068733302 @default.
W811054497 hasConcept C120665830 @default.
W811054497 hasConcept C121332964 @default.
W811054497 hasConcept C138885662 @default.
W811054497 hasConcept C171250308 @default.
W811054497 hasConcept C177562468 @default.
W811054497 hasConcept C19067145 @default.
W811054497 hasConcept C192562407 @default.
W811054497 hasConcept C40231798 @default.
W811054497 hasConcept C41895202 @default.
W811054497 hasConceptScore W811054497C120665830 @default.
W811054497 hasConceptScore W811054497C121332964 @default.
W811054497 hasConceptScore W811054497C138885662 @default.
W811054497 hasConceptScore W811054497C171250308 @default.
W811054497 hasConceptScore W811054497C177562468 @default.
W811054497 hasConceptScore W811054497C19067145 @default.
W811054497 hasConceptScore W811054497C192562407 @default.
W811054497 hasConceptScore W811054497C40231798 @default.
W811054497 hasConceptScore W811054497C41895202 @default.
W811054497 hasLocation W8110544971 @default.
W811054497 hasOpenAccess W811054497 @default.
W811054497 hasPrimaryLocation W8110544971 @default.
W811054497 hasRelatedWork W1969330179 @default.
W811054497 hasRelatedWork W2020567181 @default.
W811054497 hasRelatedWork W2067393306 @default.
W811054497 hasRelatedWork W2071600213 @default.
W811054497 hasRelatedWork W2092317575 @default.