The application of organic photovoltaic(OPV)cells to drive off-grid microelectronic devices under indoor light has attracted broad attention.As organic semiconductors intrinsically have less ordered intermolecular pac...The application of organic photovoltaic(OPV)cells to drive off-grid microelectronic devices under indoor light has attracted broad attention.As organic semiconductors intrinsically have less ordered intermolecular packing than inorganic materials,the relatively larger energetic disorder is one of the main results that limit the photovoltaic efficiency of the OPV cells at low carrier density.Here,we optimize the alkyl chains of non-fullerene acceptors to get suppressed energetic disorder.We find the optimal acceptor DTz-R1 with the shortest alkyl chain has the strongest crystalline property and lowest energetic disorder.As a result,over 26%efficiency is recorded for the 1 cm^(2) OPV cells under a light-emitting diode illumination of 500 lux.We also fabricate a 100 cm^(2) cell device and get a PCE of 23.0%,which is an outstanding value for large-area OPV cells.These results suggest that modulation of the energetic disorder is of great importance for further improving the efficiency of OPV cells,especially for indoor applications.展开更多
Organic photovoltaic devices(OPVs)show promise as the next-generation clean-energy technology with diverse applications,due to their unique merits of low-cost production with solution processability,light-weight,ultra...Organic photovoltaic devices(OPVs)show promise as the next-generation clean-energy technology with diverse applications,due to their unique merits of low-cost production with solution processability,light-weight,ultra-flexibility,good visible transparency for solar windows,aesthetic with vivid color,etc.Since the discovery of photovoltaic effect by sandwiching the Anthracene with electrodes,the OPVs has drawn more and more attention.In the most recent years,comprehensive research on materials design,interface modification,morphology control,device structure design,etc.,leads to the rapid progress in OPV.展开更多
基金This work was financially supported by the National Natural Science Foundation of China(Nos.52003275,22075301,22122905 and 52120105005)J.H.Hou was supported by the Key Research Program of the Chinese Academy of Sciences(No.XDPB13)the Bureau of International Cooperation Chinese Academy of Sciences(No.121111KYSB20200043).
文摘The application of organic photovoltaic(OPV)cells to drive off-grid microelectronic devices under indoor light has attracted broad attention.As organic semiconductors intrinsically have less ordered intermolecular packing than inorganic materials,the relatively larger energetic disorder is one of the main results that limit the photovoltaic efficiency of the OPV cells at low carrier density.Here,we optimize the alkyl chains of non-fullerene acceptors to get suppressed energetic disorder.We find the optimal acceptor DTz-R1 with the shortest alkyl chain has the strongest crystalline property and lowest energetic disorder.As a result,over 26%efficiency is recorded for the 1 cm^(2) OPV cells under a light-emitting diode illumination of 500 lux.We also fabricate a 100 cm^(2) cell device and get a PCE of 23.0%,which is an outstanding value for large-area OPV cells.These results suggest that modulation of the energetic disorder is of great importance for further improving the efficiency of OPV cells,especially for indoor applications.
文摘Organic photovoltaic devices(OPVs)show promise as the next-generation clean-energy technology with diverse applications,due to their unique merits of low-cost production with solution processability,light-weight,ultra-flexibility,good visible transparency for solar windows,aesthetic with vivid color,etc.Since the discovery of photovoltaic effect by sandwiching the Anthracene with electrodes,the OPVs has drawn more and more attention.In the most recent years,comprehensive research on materials design,interface modification,morphology control,device structure design,etc.,leads to the rapid progress in OPV.
