SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3087020168> ?p ?o ?g. }

Showing items 1 to 100 of ±178 with 100 items per page.

W3087020168 endingPage "43693" @default.
W3087020168 startingPage "43684" @default.
W3087020168 abstract "Efficient organic photovoltaics (OPVs) based on slot-die-coated (SD) ternary blends were developed for low-intensity indoor light harvesting. For active layers processed in air and from eco-friendly solvents, our device performances (under 1 sun and low light intensity) are the highest reported values for fluoro-dithiophenyl-benzothiadiazole donor polymer-based OPVs. The N-annulated perylene diimide dimer acceptor was incorporated into a blend of donor polymer (FBT) and fullerene acceptor (PC61BM) to give ternary bulk heterojunction blends. SD ternary-based devices under 1 sun illumination showed enhanced power conversion efficiency (PCE) from 6.8 to 7.7%. We observed enhancement in the short-circuit current density and open-circuit voltage of the devices. Under low light intensity light-emitting device illumination (ca. 2000 lux), the ternary-based devices achieved a PCE of 14.0% and a maximum power density of 79 μW/cm2 compared to a PCE of 12.0% and a maximum power density of 68 μW/cm2 for binary-based devices. Under the same illumination conditions, the spin-coated (SC) devices showed a PCE of 15.5% and a maximum power density of 88 μW/cm2. Collectively, these results demonstrate the exceptional promise of a SD ternary blend system for indoor light harvesting and the need to optimize active layers based on industry-relevant coating approaches toward mini modules." @default.
W3087020168 created "2020-09-25" @default.
W3087020168 creator A5014152256 @default.
W3087020168 creator A5027347179 @default.
W3087020168 creator A5036497633 @default.
W3087020168 creator A5048210465 @default.
W3087020168 creator A5060208186 @default.
W3087020168 creator A5061865469 @default.
W3087020168 creator A5083260927 @default.
W3087020168 creator A5087201687 @default.
W3087020168 date "2020-09-18" @default.
W3087020168 modified "2023-10-17" @default.
W3087020168 title "Slot-Die-Coated Ternary Organic Photovoltaics for Indoor Light Recycling" @default.
W3087020168 cites W1771321090 @default.
W3087020168 cites W1944250730 @default.
W3087020168 cites W1950675795 @default.
W3087020168 cites W1960986163 @default.
W3087020168 cites W1964610771 @default.
W3087020168 cites W1976940026 @default.
W3087020168 cites W1993323521 @default.
W3087020168 cites W2001993350 @default.
W3087020168 cites W2015414815 @default.
W3087020168 cites W2062753148 @default.
W3087020168 cites W2063704240 @default.
W3087020168 cites W2078130697 @default.
W3087020168 cites W2080015622 @default.
W3087020168 cites W2104708743 @default.
W3087020168 cites W2154113062 @default.
W3087020168 cites W2173500524 @default.
W3087020168 cites W2237337451 @default.
W3087020168 cites W2257354090 @default.
W3087020168 cites W2301505923 @default.
W3087020168 cites W2318141565 @default.
W3087020168 cites W2424613347 @default.
W3087020168 cites W2460166362 @default.
W3087020168 cites W2521851904 @default.
W3087020168 cites W2535192177 @default.
W3087020168 cites W2546173671 @default.
W3087020168 cites W2550570388 @default.
W3087020168 cites W2589386676 @default.
W3087020168 cites W2610343300 @default.
W3087020168 cites W2613698212 @default.
W3087020168 cites W2737156700 @default.
W3087020168 cites W2748520670 @default.
W3087020168 cites W2749679272 @default.
W3087020168 cites W2759573081 @default.
W3087020168 cites W2767391253 @default.
W3087020168 cites W2780283881 @default.
W3087020168 cites W2799446840 @default.
W3087020168 cites W2800003326 @default.
W3087020168 cites W2800570580 @default.
W3087020168 cites W2808225459 @default.
W3087020168 cites W2832618839 @default.
W3087020168 cites W2888146697 @default.
W3087020168 cites W2889168591 @default.
W3087020168 cites W2897768303 @default.
W3087020168 cites W2899383943 @default.
W3087020168 cites W2910599564 @default.
W3087020168 cites W2911632937 @default.
W3087020168 cites W2915973873 @default.
W3087020168 cites W2919177239 @default.
W3087020168 cites W2941208909 @default.
W3087020168 cites W2948233044 @default.
W3087020168 cites W2955801710 @default.
W3087020168 cites W2966624811 @default.
W3087020168 cites W2969731790 @default.
W3087020168 cites W2975211286 @default.
W3087020168 cites W2982063376 @default.
W3087020168 cites W2982784387 @default.
W3087020168 cites W2983806947 @default.
W3087020168 cites W2987592927 @default.
W3087020168 cites W2996571769 @default.
W3087020168 cites W3001332660 @default.
W3087020168 cites W3008246007 @default.
W3087020168 cites W3011134024 @default.
W3087020168 cites W3013363765 @default.
W3087020168 cites W3024991467 @default.
W3087020168 cites W3031927174 @default.
W3087020168 cites W3034642323 @default.
W3087020168 cites W3044292159 @default.
W3087020168 doi "https://doi.org/10.1021/acsami.0c11809" @default.
W3087020168 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/32946216" @default.
W3087020168 hasPublicationYear "2020" @default.
W3087020168 type Work @default.
W3087020168 sameAs 3087020168 @default.
W3087020168 citedByCount "22" @default.
W3087020168 countsByYear W30870201682020 @default.
W3087020168 countsByYear W30870201682021 @default.
W3087020168 countsByYear W30870201682022 @default.
W3087020168 countsByYear W30870201682023 @default.
W3087020168 crossrefType "journal-article" @default.
W3087020168 hasAuthorship W3087020168A5014152256 @default.
W3087020168 hasAuthorship W3087020168A5027347179 @default.
W3087020168 hasAuthorship W3087020168A5036497633 @default.
W3087020168 hasAuthorship W3087020168A5048210465 @default.
W3087020168 hasAuthorship W3087020168A5060208186 @default.
W3087020168 hasAuthorship W3087020168A5061865469 @default.
W3087020168 hasAuthorship W3087020168A5083260927 @default.