SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2904679948> ?p ?o ?g. }

Showing items 1 to 100 of ±173 with 100 items per page.

W2904679948 endingPage "1038" @default.
W2904679948 startingPage "1028" @default.
W2904679948 abstract "Abstract Organic photovoltaic cells commonly use an active layer with a polycrystalline bulk heterojunction. However, for simplifying the fabrication process, it may be worthwhile to use an amorphous active layer to lessen the burden on processing to achieve optimal performance. While polymers can adopt amorphous phases, molecular glasses, small molecules that can readily form glassy phases and do not crystallize over time, offer an appealing alternative, being monodisperse species. Our group has developed a series of reactive molecular glasses that can be covalently bonded to chromophores to form glass‐forming adducts, and this strategy has been used to synthesize glass‐forming donor and acceptor materials. Herein, the results of devices incorporating these materials in either partially or fully amorphous active layers are summarized. Additionally, these molecular glasses can be used as ternary components in crystalline systems to enhance efficiency without perturbing the morphology." @default.
W2904679948 created "2018-12-22" @default.
W2904679948 creator A5038458212 @default.
W2904679948 creator A5080340039 @default.
W2904679948 date "2018-12-13" @default.
W2904679948 modified "2023-10-16" @default.
W2904679948 title "Revisiting the Optimal Nano‐Morphology: Towards Amorphous Organic Photovoltaics" @default.
W2904679948 cites W1586863416 @default.
W2904679948 cites W1796494851 @default.
W2904679948 cites W1841159091 @default.
W2904679948 cites W1842233119 @default.
W2904679948 cites W1958170551 @default.
W2904679948 cites W1966691118 @default.
W2904679948 cites W1967599139 @default.
W2904679948 cites W1978712972 @default.
W2904679948 cites W1986117411 @default.
W2904679948 cites W1989565892 @default.
W2904679948 cites W1993392258 @default.
W2904679948 cites W1994893251 @default.
W2904679948 cites W1995710722 @default.
W2904679948 cites W1996094051 @default.
W2904679948 cites W1998313281 @default.
W2904679948 cites W1998602715 @default.
W2904679948 cites W1999633764 @default.
W2904679948 cites W2001230771 @default.
W2904679948 cites W2002010109 @default.
W2904679948 cites W2002828967 @default.
W2904679948 cites W2004277091 @default.
W2904679948 cites W2004842271 @default.
W2904679948 cites W2006010233 @default.
W2904679948 cites W2007735497 @default.
W2904679948 cites W2012132173 @default.
W2904679948 cites W2013960041 @default.
W2904679948 cites W2025020858 @default.
W2904679948 cites W2026356918 @default.
W2904679948 cites W2048421180 @default.
W2904679948 cites W2065147109 @default.
W2904679948 cites W2066916547 @default.
W2904679948 cites W2067029057 @default.
W2904679948 cites W2068494999 @default.
W2904679948 cites W2068655712 @default.
W2904679948 cites W2071134066 @default.
W2904679948 cites W2072314947 @default.
W2904679948 cites W2074384783 @default.
W2904679948 cites W2075179133 @default.
W2904679948 cites W2075554292 @default.
W2904679948 cites W2084190216 @default.
W2904679948 cites W2088004666 @default.
W2904679948 cites W2095477500 @default.
W2904679948 cites W2097952819 @default.
W2904679948 cites W2130703607 @default.
W2904679948 cites W2134170571 @default.
W2904679948 cites W2141733128 @default.
W2904679948 cites W2148669001 @default.
W2904679948 cites W2155215183 @default.
W2904679948 cites W2158036413 @default.
W2904679948 cites W2160868704 @default.
W2904679948 cites W2165328239 @default.
W2904679948 cites W2176527676 @default.
W2904679948 cites W2181211187 @default.
W2904679948 cites W2183664540 @default.
W2904679948 cites W2187349229 @default.
W2904679948 cites W2193622086 @default.
W2904679948 cites W2236510725 @default.
W2904679948 cites W2314711312 @default.
W2904679948 cites W2340526835 @default.
W2904679948 cites W2509033887 @default.
W2904679948 cites W2548618064 @default.
W2904679948 cites W2622999789 @default.
W2904679948 cites W2727681229 @default.
W2904679948 cites W2745676833 @default.
W2904679948 cites W2767425083 @default.
W2904679948 cites W2770402705 @default.
W2904679948 cites W2772830342 @default.
W2904679948 cites W2775007153 @default.
W2904679948 cites W2793221622 @default.
W2904679948 cites W2801228296 @default.
W2904679948 cites W2808360526 @default.
W2904679948 cites W2884301843 @default.
W2904679948 cites W3105027294 @default.
W2904679948 cites W4211151731 @default.
W2904679948 cites W4211160986 @default.
W2904679948 cites W4231839311 @default.
W2904679948 cites W4239132388 @default.
W2904679948 cites W4243532647 @default.
W2904679948 doi "https://doi.org/10.1002/tcr.201800158" @default.
W2904679948 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/30548964" @default.
W2904679948 hasPublicationYear "2018" @default.
W2904679948 type Work @default.
W2904679948 sameAs 2904679948 @default.
W2904679948 citedByCount "3" @default.
W2904679948 countsByYear W29046799482020 @default.
W2904679948 countsByYear W29046799482021 @default.
W2904679948 countsByYear W29046799482023 @default.
W2904679948 crossrefType "journal-article" @default.
W2904679948 hasAuthorship W2904679948A5038458212 @default.
W2904679948 hasAuthorship W2904679948A5080340039 @default.
W2904679948 hasBestOaLocation W29046799482 @default.