FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2989761675> ?p ?o ?g. }

• W2989761675 endingPage "100" @default.
• W2989761675 startingPage "93" @default.
• W2989761675 abstract "Abstract Luminescence downshifting (LDS) layer integration has been proven to be an efficient way to ameliorate the poor UV-blue spectral response and improve the power conversion efficiency (PCE) for solar cells (SCs). By employing an in situ fabricated CH 3 NH 3 PbBr 3 (CH 3 NH 3 = methylammonium, MAPbBr 3 ) quantum dot/polyacrylonitrile (PAN) composite film as the LDS layer, we observed a clear enhancement in the external quantum efficiency (EQE) for silicon SCs, predominantly in the UV-blue region. With a theoretically calculated intrinsic LDS efficiency ( η LDS ) of up to 72%, silicon SCs with the LDS layer exhibited an absolute value of 1% for PCE improvement in comparison to those without the LDS layer. The combination of easy fabrication and low cost makes it a practical way to achieve photovoltaic enhancement of Si-based SCs." @default.
• W2989761675 created "2019-12-05" @default.
• W2989761675 creator A5006568361 @default.
• W2989761675 creator A5014466940 @default.
• W2989761675 creator A5014708668 @default.
• W2989761675 creator A5051888875 @default.
• W2989761675 creator A5061236798 @default.
• W2989761675 creator A5074785947 @default.
• W2989761675 creator A5080666898 @default.
• W2989761675 creator A5083825033 @default.
• W2989761675 creator A5086765491 @default.
• W2989761675 date "2019-11-29" @default.
• W2989761675 modified "2023-09-23" @default.
• W2989761675 title "Improving the efficiency of silicon solar cells using <i>in situ</i> fabricated perovskite quantum dots as luminescence downshifting materials" @default.
• W2989761675 cites W1867803897 @default.
• W2989761675 cites W1963721320 @default.
• W2989761675 cites W1965093710 @default.
• W2989761675 cites W1972170404 @default.
• W2989761675 cites W1981743740 @default.
• W2989761675 cites W1992238681 @default.
• W2989761675 cites W2008447169 @default.
• W2989761675 cites W2009349328 @default.
• W2989761675 cites W2022438633 @default.
• W2989761675 cites W2037758636 @default.
• W2989761675 cites W2040256765 @default.
• W2989761675 cites W2077827283 @default.
• W2989761675 cites W2095448242 @default.
• W2989761675 cites W2099200340 @default.
• W2989761675 cites W2105261325 @default.
• W2989761675 cites W2109583020 @default.
• W2989761675 cites W2115997993 @default.
• W2989761675 cites W2117441206 @default.
• W2989761675 cites W2123590280 @default.
• W2989761675 cites W2128715136 @default.
• W2989761675 cites W2138359059 @default.
• W2989761675 cites W2138775412 @default.
• W2989761675 cites W2144295156 @default.
• W2989761675 cites W2149038986 @default.
• W2989761675 cites W2155383220 @default.
• W2989761675 cites W2156496012 @default.
• W2989761675 cites W2158108855 @default.
• W2989761675 cites W2224264638 @default.
• W2989761675 cites W2242534838 @default.
• W2989761675 cites W2267352091 @default.
• W2989761675 cites W2280269504 @default.
• W2989761675 cites W2317036840 @default.
• W2989761675 cites W2317884741 @default.
• W2989761675 cites W2327270005 @default.
• W2989761675 cites W2509317409 @default.
• W2989761675 cites W2522916958 @default.
• W2989761675 cites W2524224710 @default.
• W2989761675 cites W2549658631 @default.
• W2989761675 cites W2562168949 @default.
• W2989761675 cites W2605564426 @default.
• W2989761675 cites W2612239097 @default.
• W2989761675 cites W2615096369 @default.
• W2989761675 cites W2622010062 @default.
• W2989761675 cites W2734435025 @default.
• W2989761675 cites W2759426645 @default.
• W2989761675 cites W2768561911 @default.
• W2989761675 cites W2800691112 @default.
• W2989761675 cites W2807044496 @default.
• W2989761675 cites W2807668576 @default.
• W2989761675 cites W2808338127 @default.
• W2989761675 cites W2809764554 @default.
• W2989761675 cites W2810058400 @default.
• W2989761675 cites W2945193031 @default.
• W2989761675 cites W4207093817 @default.
• W2989761675 doi "https://doi.org/10.1515/nanoph-2019-0320" @default.
• W2989761675 hasPublicationYear "2019" @default.
• W2989761675 type Work @default.
• W2989761675 sameAs 2989761675 @default.
• W2989761675 citedByCount "32" @default.
• W2989761675 countsByYear W29897616752020 @default.
• W2989761675 countsByYear W29897616752021 @default.
• W2989761675 countsByYear W29897616752022 @default.
• W2989761675 countsByYear W29897616752023 @default.
• W2989761675 crossrefType "journal-article" @default.
• W2989761675 hasAuthorship W2989761675A5006568361 @default.
• W2989761675 hasAuthorship W2989761675A5014466940 @default.
• W2989761675 hasAuthorship W2989761675A5014708668 @default.
• W2989761675 hasAuthorship W2989761675A5051888875 @default.
• W2989761675 hasAuthorship W2989761675A5061236798 @default.
• W2989761675 hasAuthorship W2989761675A5074785947 @default.
• W2989761675 hasAuthorship W2989761675A5080666898 @default.
• W2989761675 hasAuthorship W2989761675A5083825033 @default.
• W2989761675 hasAuthorship W2989761675A5086765491 @default.
• W2989761675 hasBestOaLocation W29897616751 @default.
• W2989761675 hasConcept C119599485 @default.
• W2989761675 hasConcept C124657808 @default.
• W2989761675 hasConcept C127413603 @default.
• W2989761675 hasConcept C136525101 @default.
• W2989761675 hasConcept C142724271 @default.
• W2989761675 hasConcept C148869448 @default.
• W2989761675 hasConcept C155011858 @default.
• W2989761675 hasConcept C159985019 @default.
• W2989761675 hasConcept C171250308 @default.
• W2989761675 hasConcept C192562407 @default.

• next