FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2808107987> ?p ?o ?g. }

• W2808107987 endingPage "603" @default.
• W2808107987 startingPage "597" @default.
• W2808107987 abstract "The present investigation mainly addresses the open circuit voltage (Voc) issue in kesterite based Cu2ZnSn(S,Se)4 solar cells by simply introducing alkali metal fluoride nanolayers (~ several nm NaF, or LiF) to lower the work functions of the front ITO contacts without conventional hole-blocking ZnO layers. Kelvin probe measurements confirmed that the work function of the front ITO decreases from 4.82 to 3.39 and 3.65 eV for NaF and LiF, respectively, resulting in beneficial band alignment for electron collection and/or hole blocking on top electrodes. Moreover, a 10.4% power conversion efficiency (~ 11.5% in the cell effective area) CZTSSe cell with improved Voc of up to 90 mV has been attained. This demonstration may provide a new direction of further boosting the performance of copper chalcogenide based solar cells as well." @default.
• W2808107987 created "2018-06-21" @default.
• W2808107987 creator A5001188423 @default.
• W2808107987 creator A5006154096 @default.
• W2808107987 creator A5027010050 @default.
• W2808107987 creator A5029729923 @default.
• W2808107987 creator A5049990733 @default.
• W2808107987 creator A5059407034 @default.
• W2808107987 creator A5061993606 @default.
• W2808107987 creator A5062073077 @default.
• W2808107987 creator A5077051200 @default.
• W2808107987 date "2018-09-01" @default.
• W2808107987 modified "2023-10-18" @default.
• W2808107987 title "Above 10% efficiency earth-abundant Cu2ZnSn(S,Se)4 solar cells by introducing alkali metal fluoride nanolayers as electron-selective contacts" @default.
• W2808107987 cites W1861255482 @default.
• W2808107987 cites W1968917296 @default.
• W2808107987 cites W1969732071 @default.
• W2808107987 cites W1979583260 @default.
• W2808107987 cites W1989415979 @default.
• W2808107987 cites W1993738365 @default.
• W2808107987 cites W2000403122 @default.
• W2808107987 cites W2002430065 @default.
• W2808107987 cites W2003062289 @default.
• W2808107987 cites W2004718710 @default.
• W2808107987 cites W2004855110 @default.
• W2808107987 cites W2004870983 @default.
• W2808107987 cites W2010544110 @default.
• W2808107987 cites W2013800150 @default.
• W2808107987 cites W2014765534 @default.
• W2808107987 cites W2017721885 @default.
• W2808107987 cites W2018891271 @default.
• W2808107987 cites W2019310480 @default.
• W2808107987 cites W2038495010 @default.
• W2808107987 cites W2041504208 @default.
• W2808107987 cites W2044300045 @default.
• W2808107987 cites W2058509592 @default.
• W2808107987 cites W2060291987 @default.
• W2808107987 cites W2063127218 @default.
• W2808107987 cites W2064004526 @default.
• W2808107987 cites W2064455222 @default.
• W2808107987 cites W2064892281 @default.
• W2808107987 cites W2065893395 @default.
• W2808107987 cites W2069774106 @default.
• W2808107987 cites W2074014009 @default.
• W2808107987 cites W2081409501 @default.
• W2808107987 cites W2099583839 @default.
• W2808107987 cites W2105457180 @default.
• W2808107987 cites W2136671002 @default.
• W2808107987 cites W2155599785 @default.
• W2808107987 cites W2165660312 @default.
• W2808107987 cites W2265953759 @default.
• W2808107987 cites W2277882105 @default.
• W2808107987 cites W2284218548 @default.
• W2808107987 cites W2295213035 @default.
• W2808107987 cites W2312318747 @default.
• W2808107987 cites W2315488001 @default.
• W2808107987 cites W2326212251 @default.
• W2808107987 cites W2327342241 @default.
• W2808107987 cites W2330817760 @default.
• W2808107987 cites W2340181385 @default.
• W2808107987 cites W2471995844 @default.
• W2808107987 cites W2522151578 @default.
• W2808107987 cites W2563324081 @default.
• W2808107987 cites W2709487316 @default.
• W2808107987 doi "https://doi.org/10.1016/j.nanoen.2018.06.028" @default.
• W2808107987 hasPublicationYear "2018" @default.
• W2808107987 type Work @default.
• W2808107987 sameAs 2808107987 @default.
• W2808107987 citedByCount "17" @default.
• W2808107987 countsByYear W28081079872018 @default.
• W2808107987 countsByYear W28081079872019 @default.
• W2808107987 countsByYear W28081079872020 @default.
• W2808107987 countsByYear W28081079872021 @default.
• W2808107987 countsByYear W28081079872022 @default.
• W2808107987 countsByYear W28081079872023 @default.
• W2808107987 crossrefType "journal-article" @default.
• W2808107987 hasAuthorship W2808107987A5001188423 @default.
• W2808107987 hasAuthorship W2808107987A5006154096 @default.
• W2808107987 hasAuthorship W2808107987A5027010050 @default.
• W2808107987 hasAuthorship W2808107987A5029729923 @default.
• W2808107987 hasAuthorship W2808107987A5049990733 @default.
• W2808107987 hasAuthorship W2808107987A5059407034 @default.
• W2808107987 hasAuthorship W2808107987A5061993606 @default.
• W2808107987 hasAuthorship W2808107987A5062073077 @default.
• W2808107987 hasAuthorship W2808107987A5077051200 @default.
• W2808107987 hasConcept C115235246 @default.
• W2808107987 hasConcept C121332964 @default.
• W2808107987 hasConcept C147120987 @default.
• W2808107987 hasConcept C147789679 @default.
• W2808107987 hasConcept C171250308 @default.
• W2808107987 hasConcept C17525397 @default.
• W2808107987 hasConcept C179104552 @default.
• W2808107987 hasConcept C185592680 @default.
• W2808107987 hasConcept C185910354 @default.
• W2808107987 hasConcept C191897082 @default.
• W2808107987 hasConcept C192562407 @default.
• W2808107987 hasConcept C198091228 @default.
• W2808107987 hasConcept C206991015 @default.

• next