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W3166445154 startingPage "233" @default.
W3166445154 abstract "Abstract All‐small‐molecule organic solar cells (all‐SM OSCs), with p ‐type small molecule ( p ‐SM) as donor and n ‐type small molecule ( n ‐SM) as acceptor, have drawn intensive research interests in recent years. All‐SM OSCs show advantages to their polymer counterparts, including well‐defined chemical structure, easy purification, and better repeatability in devices. The highest power conversion efficiency (PCE) of all‐SM OSCs has increased quickly to over 15% nowadays. In this review, we just summarize the progress of non‐fullerene all‐SM OSCs (NF all‐SM OSCs) in recent five years, by dividing small‐molecule donors into four categories based on the molecular segments of oligothiophene, benzo[1,2‐ b :4,5‐ b ’]dithiophene (BDT) trimer, typical BDT‐central unit connected with π‐bridges of thiophene or electron deficient acceptor units. We aim to illustrate the relationship of molecular structures, properties, and device performance of small‐molecule donors with those different molecular segments. Furthermore, the tendency of molecular design for photo‐active materials are also depicted and summarized. Finally, we give our views on the future prospects of NF all‐SM OSCs to design the next‐generation OSCs." @default.
W3166445154 created "2021-06-22" @default.
W3166445154 creator A5000576799 @default.
W3166445154 creator A5028625458 @default.
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W3166445154 creator A5086570821 @default.
W3166445154 creator A5090146358 @default.
W3166445154 creator A5090247435 @default.
W3166445154 date "2021-06-15" @default.
W3166445154 modified "2023-10-15" @default.
W3166445154 title "Recent progress in small‐molecule donors for non‐fullerene all‐small‐molecule organic solar cells" @default.
W3166445154 cites W1969732071 @default.
W3166445154 cites W1970005294 @default.
W3166445154 cites W1970065510 @default.
W3166445154 cites W1996291528 @default.
W3166445154 cites W2016088184 @default.
W3166445154 cites W2067049941 @default.
W3166445154 cites W2071134066 @default.
W3166445154 cites W2077715587 @default.
W3166445154 cites W2082019533 @default.
W3166445154 cites W2085123660 @default.
W3166445154 cites W2085915663 @default.
W3166445154 cites W2088750456 @default.
W3166445154 cites W2102521642 @default.
W3166445154 cites W2108245541 @default.
W3166445154 cites W2119402469 @default.
W3166445154 cites W2123711607 @default.
W3166445154 cites W2141733128 @default.
W3166445154 cites W2145252402 @default.
W3166445154 cites W2153028269 @default.
W3166445154 cites W2161037948 @default.
W3166445154 cites W2171351682 @default.
W3166445154 cites W2171949593 @default.
W3166445154 cites W2173608668 @default.
W3166445154 cites W2257390989 @default.
W3166445154 cites W2276511412 @default.
W3166445154 cites W2283558477 @default.
W3166445154 cites W2305124007 @default.
W3166445154 cites W2312398602 @default.
W3166445154 cites W2335025690 @default.
W3166445154 cites W2346370504 @default.
W3166445154 cites W2557542210 @default.
W3166445154 cites W2566043904 @default.
W3166445154 cites W2571394977 @default.
W3166445154 cites W2573983199 @default.
W3166445154 cites W2601255701 @default.
W3166445154 cites W2622748198 @default.
W3166445154 cites W2743730887 @default.
W3166445154 cites W2748520670 @default.
W3166445154 cites W2756115881 @default.
W3166445154 cites W2758915694 @default.
W3166445154 cites W2773318743 @default.
W3166445154 cites W2782911124 @default.
W3166445154 cites W2789787743 @default.
W3166445154 cites W2791981569 @default.
W3166445154 cites W2792607498 @default.
W3166445154 cites W2792783390 @default.
W3166445154 cites W2793591089 @default.
W3166445154 cites W2801863586 @default.
W3166445154 cites W2804317803 @default.
W3166445154 cites W2810481404 @default.
W3166445154 cites W2884851021 @default.
W3166445154 cites W2889388048 @default.
W3166445154 cites W2895388027 @default.
W3166445154 cites W2898661915 @default.
W3166445154 cites W2909990379 @default.
W3166445154 cites W2910423848 @default.
W3166445154 cites W2933655516 @default.
W3166445154 cites W2980693377 @default.
W3166445154 cites W2990971222 @default.
W3166445154 cites W2995400052 @default.
W3166445154 cites W2999590263 @default.
W3166445154 cites W3005630494 @default.
W3166445154 cites W3012406888 @default.
W3166445154 cites W3013242098 @default.
W3166445154 cites W3013363765 @default.
W3166445154 cites W3015081691 @default.
W3166445154 cites W3015154572 @default.
W3166445154 cites W3015680343 @default.
W3166445154 cites W3016117235 @default.
W3166445154 cites W3021317012 @default.
W3166445154 cites W3026035845 @default.
W3166445154 cites W3026120061 @default.
W3166445154 cites W3031551017 @default.
W3166445154 cites W3037543242 @default.
W3166445154 cites W3037895178 @default.
W3166445154 cites W3047366330 @default.
W3166445154 cites W3087450506 @default.
W3166445154 cites W3093739618 @default.
W3166445154 cites W3106672923 @default.
W3166445154 cites W3117221858 @default.
W3166445154 cites W3130193220 @default.
W3166445154 cites W3140608502 @default.
W3166445154 cites W3155056997 @default.
W3166445154 cites W3157704029 @default.
W3166445154 doi "https://doi.org/10.1002/nano.202100181" @default.
W3166445154 hasPublicationYear "2021" @default.