FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2040426272> ?p ?o ?g. }

• W2040426272 endingPage "1777" @default.
• W2040426272 startingPage "1773" @default.
• W2040426272 abstract "The impurity photovoltaic effect (IPV) has mostly been studied in various semiconductors such as silicon, silicon carbide and GaAs in order to increase infrared absorption and hence cell efficiency. In this work, sulphur is used as the IPV effect impurity incorporated in silicon solar cells. For our simulation we use the numerical device simulator (SCAPS). We calculate the solar cell performances (short circuit current density Jsc, open circuit voltage Voc, conversion efficiency η and quantum efficiency QE). We study the influence of light trapping and certain impurity parameters like impurity concentration and position in the gap on the solar cell performances. Simulation results for IPV effect on silicon doped with sulphur show an improvement of the short circuit current and the efficiency for sulphur energy levels located far from the middle of the band gap especially at Ec–Et=0.18 eV." @default.
• W2040426272 created "2016-06-24" @default.
• W2040426272 creator A5011170051 @default.
• W2040426272 creator A5058619588 @default.
• W2040426272 date "2011-04-01" @default.
• W2040426272 modified "2023-10-06" @default.
• W2040426272 title "Impurity photovoltaic effect in silicon solar cell doped with sulphur: A numerical simulation" @default.
• W2040426272 cites W1965491312 @default.
• W2040426272 cites W1985985967 @default.
• W2040426272 cites W1987346293 @default.
• W2040426272 cites W1988689502 @default.
• W2040426272 cites W2000418477 @default.
• W2040426272 cites W2019915562 @default.
• W2040426272 cites W2021865613 @default.
• W2040426272 cites W2029637177 @default.
• W2040426272 cites W2039516801 @default.
• W2040426272 cites W2041644993 @default.
• W2040426272 cites W2062706718 @default.
• W2040426272 cites W2071902044 @default.
• W2040426272 cites W2074302945 @default.
• W2040426272 cites W2095497397 @default.
• W2040426272 cites W4244081946 @default.
• W2040426272 doi "https://doi.org/10.1016/j.physb.2011.02.025" @default.
• W2040426272 hasPublicationYear "2011" @default.
• W2040426272 type Work @default.
• W2040426272 sameAs 2040426272 @default.
• W2040426272 citedByCount "18" @default.
• W2040426272 countsByYear W20404262722012 @default.
• W2040426272 countsByYear W20404262722013 @default.
• W2040426272 countsByYear W20404262722014 @default.
• W2040426272 countsByYear W20404262722015 @default.
• W2040426272 countsByYear W20404262722017 @default.
• W2040426272 countsByYear W20404262722018 @default.
• W2040426272 countsByYear W20404262722019 @default.
• W2040426272 countsByYear W20404262722021 @default.
• W2040426272 countsByYear W20404262722022 @default.
• W2040426272 countsByYear W20404262722023 @default.
• W2040426272 crossrefType "journal-article" @default.
• W2040426272 hasAuthorship W2040426272A5011170051 @default.
• W2040426272 hasAuthorship W2040426272A5058619588 @default.
• W2040426272 hasConcept C108225325 @default.
• W2040426272 hasConcept C119599485 @default.
• W2040426272 hasConcept C127413603 @default.
• W2040426272 hasConcept C165801399 @default.
• W2040426272 hasConcept C178790620 @default.
• W2040426272 hasConcept C181966813 @default.
• W2040426272 hasConcept C185592680 @default.
• W2040426272 hasConcept C192562407 @default.
• W2040426272 hasConcept C205507967 @default.
• W2040426272 hasConcept C206991015 @default.
• W2040426272 hasConcept C2780824857 @default.
• W2040426272 hasConcept C41291067 @default.
• W2040426272 hasConcept C49040817 @default.
• W2040426272 hasConcept C544956773 @default.
• W2040426272 hasConcept C57631264 @default.
• W2040426272 hasConcept C57863236 @default.
• W2040426272 hasConcept C68583231 @default.
• W2040426272 hasConcept C71987851 @default.
• W2040426272 hasConceptScore W2040426272C108225325 @default.
• W2040426272 hasConceptScore W2040426272C119599485 @default.
• W2040426272 hasConceptScore W2040426272C127413603 @default.
• W2040426272 hasConceptScore W2040426272C165801399 @default.
• W2040426272 hasConceptScore W2040426272C178790620 @default.
• W2040426272 hasConceptScore W2040426272C181966813 @default.
• W2040426272 hasConceptScore W2040426272C185592680 @default.
• W2040426272 hasConceptScore W2040426272C192562407 @default.
• W2040426272 hasConceptScore W2040426272C205507967 @default.
• W2040426272 hasConceptScore W2040426272C206991015 @default.
• W2040426272 hasConceptScore W2040426272C2780824857 @default.
• W2040426272 hasConceptScore W2040426272C41291067 @default.
• W2040426272 hasConceptScore W2040426272C49040817 @default.
• W2040426272 hasConceptScore W2040426272C544956773 @default.
• W2040426272 hasConceptScore W2040426272C57631264 @default.
• W2040426272 hasConceptScore W2040426272C57863236 @default.
• W2040426272 hasConceptScore W2040426272C68583231 @default.
• W2040426272 hasConceptScore W2040426272C71987851 @default.
• W2040426272 hasIssue "9" @default.
• W2040426272 hasLocation W20404262721 @default.
• W2040426272 hasOpenAccess W2040426272 @default.
• W2040426272 hasPrimaryLocation W20404262721 @default.
• W2040426272 hasRelatedWork W1996081113 @default.
• W2040426272 hasRelatedWork W2007281746 @default.
• W2040426272 hasRelatedWork W2013161802 @default.
• W2040426272 hasRelatedWork W2032799471 @default.
• W2040426272 hasRelatedWork W2069261136 @default.
• W2040426272 hasRelatedWork W2163836442 @default.
• W2040426272 hasRelatedWork W2594699172 @default.
• W2040426272 hasRelatedWork W3085587269 @default.
• W2040426272 hasRelatedWork W3174012462 @default.
• W2040426272 hasRelatedWork W990521860 @default.
• W2040426272 hasVolume "406" @default.
• W2040426272 isParatext "false" @default.
• W2040426272 isRetracted "false" @default.
• W2040426272 magId "2040426272" @default.
• W2040426272 workType "article" @default.