SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4313325229> ?p ?o ?g. }

Showing items 1 to 100 of ±168 with 100 items per page.

W4313325229 abstract "Abstract Endeavors in the field of dye‐sensitized solar cells (DSCs) have shown great promise when adopting a data‐driven approach to materials discovery, such as successful molecular‐scale predictions of light‐harvesting chromophores. However, predictions of DSC dyes would become much more sophisticated if a molecular‐to‐macroscopic DSC device prediction methodology existed. Thereby, a fully computational pipeline is presented that predicts device‐performance parameters of DSCs which contain varying dye combinations. Optimal pairing of complementary dyes is identified via a data‐driven workflow that affords cosensitized DSCs with maximum power‐conversion efficiencies. Six high‐performing DSC dyes are paired with partner dyes that are screened from a database of 8488 compounds using sequential heuristic filters. Existing models that predict short‐circuit‐current density ( J SC ) and open‐circuit voltage ( V OC ) parameters are adapted to predict singly sensitized and cosensitized DSC performance. The predictions for J sc values of singly sensitized devices match experimental literature values with comparable accuracy to more computationally costly methods. Five out of six dye pairings are predicted to have greater J SC values when cosensitized compared to their corresponding singly sensitized devices, including two pairs that show strong J sc boosts of +13% and +12% when cosensitized. Thus, the prospect of an entirely in‐silico prediction pipeline for DSC performance that can be used to realize the fully automated design of optimized cosensitized DSCs is demonstrated." @default.
W4313325229 created "2023-01-06" @default.
W4313325229 creator A5014506032 @default.
W4313325229 creator A5017143416 @default.
W4313325229 creator A5046259488 @default.
W4313325229 creator A5068607578 @default.
W4313325229 date "2022-12-28" @default.
W4313325229 modified "2023-10-18" @default.
W4313325229 title "In‐Silico Device Performance Prediction of Cosensitizer Dye Pairs for Dye‐Sensitized Solar Cells" @default.
W4313325229 cites W1414310876 @default.
W4313325229 cites W1768967549 @default.
W4313325229 cites W1965092590 @default.
W4313325229 cites W1965423785 @default.
W4313325229 cites W1966182479 @default.
W4313325229 cites W1969343146 @default.
W4313325229 cites W1970096300 @default.
W4313325229 cites W1970194327 @default.
W4313325229 cites W1975147762 @default.
W4313325229 cites W1980216394 @default.
W4313325229 cites W1982089570 @default.
W4313325229 cites W1984714464 @default.
W4313325229 cites W1988133899 @default.
W4313325229 cites W1988967840 @default.
W4313325229 cites W1991328393 @default.
W4313325229 cites W2011805684 @default.
W4313325229 cites W2017588499 @default.
W4313325229 cites W2019975010 @default.
W4313325229 cites W2030372083 @default.
W4313325229 cites W2030971064 @default.
W4313325229 cites W2033053233 @default.
W4313325229 cites W2033348850 @default.
W4313325229 cites W2044990793 @default.
W4313325229 cites W2045720837 @default.
W4313325229 cites W2046412723 @default.
W4313325229 cites W2050878785 @default.
W4313325229 cites W2052476920 @default.
W4313325229 cites W2053484074 @default.
W4313325229 cites W2053554758 @default.
W4313325229 cites W2055563809 @default.
W4313325229 cites W2055914734 @default.
W4313325229 cites W2056032039 @default.
W4313325229 cites W2062852634 @default.
W4313325229 cites W2063747845 @default.
W4313325229 cites W2067973086 @default.
W4313325229 cites W2070472558 @default.
W4313325229 cites W2072782989 @default.
W4313325229 cites W2074213206 @default.
W4313325229 cites W2075705052 @default.
W4313325229 cites W2076329636 @default.
W4313325229 cites W2086957099 @default.
W4313325229 cites W2089049959 @default.
W4313325229 cites W2109738979 @default.
W4313325229 cites W2114384442 @default.
W4313325229 cites W2115811889 @default.
W4313325229 cites W2121076213 @default.
W4313325229 cites W2134164499 @default.
W4313325229 cites W2143981217 @default.
W4313325229 cites W2157334391 @default.
W4313325229 cites W2169678694 @default.
W4313325229 cites W2173804863 @default.
W4313325229 cites W2181232623 @default.
W4313325229 cites W2269683466 @default.
W4313325229 cites W2283183552 @default.
W4313325229 cites W2312569904 @default.
W4313325229 cites W2318137467 @default.
W4313325229 cites W2323888158 @default.
W4313325229 cites W2331841462 @default.
W4313325229 cites W2484564380 @default.
W4313325229 cites W2523785361 @default.
W4313325229 cites W2524377638 @default.
W4313325229 cites W2610343300 @default.
W4313325229 cites W2624690815 @default.
W4313325229 cites W2730829241 @default.
W4313325229 cites W2734501636 @default.
W4313325229 cites W2752436037 @default.
W4313325229 cites W2789059526 @default.
W4313325229 cites W2790424097 @default.
W4313325229 cites W2799857457 @default.
W4313325229 cites W2888395196 @default.
W4313325229 cites W2904992191 @default.
W4313325229 cites W2927464422 @default.
W4313325229 cites W2944901956 @default.
W4313325229 cites W2958511257 @default.
W4313325229 cites W2984887428 @default.
W4313325229 cites W2992302948 @default.
W4313325229 cites W2996275300 @default.
W4313325229 cites W2996659100 @default.
W4313325229 cites W3003726020 @default.
W4313325229 cites W3017071776 @default.
W4313325229 cites W3104098743 @default.
W4313325229 cites W3137213564 @default.
W4313325229 cites W3185249044 @default.
W4313325229 doi "https://doi.org/10.1002/aenm.202203536" @default.
W4313325229 hasPublicationYear "2022" @default.
W4313325229 type Work @default.
W4313325229 citedByCount "0" @default.
W4313325229 crossrefType "journal-article" @default.
W4313325229 hasAuthorship W4313325229A5014506032 @default.
W4313325229 hasAuthorship W4313325229A5017143416 @default.
W4313325229 hasAuthorship W4313325229A5046259488 @default.