SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2892353181> ?p ?o ?g. }

Showing items 1 to 100 of ±136 with 100 items per page.

W2892353181 endingPage "311" @default.
W2892353181 startingPage "303" @default.
W2892353181 abstract "Zinc oxide (ZnO) as an electron transport material has been used in regular planar perovskite solar cells (PSCs). Herein, ZnO nanoparticles serve as an additive directly in perovskite active layer in order to fabricate a bulk-heterojunction inverted planar PSC. The CH3NH3PbI3-xClx:ZnO bulk heterojunction is prepared by mixing ZnO nanoparticles into CH3NH3PbI3-xClx precursor solution. ZnO nanoparticles act as catalytic centers and induce the growth of perovskite grains leading to the formation of large-size perovskite crystals. Remarkably, hysterysis-free power conversion efficiency of 17.26% is achieved when precisely control the concentration of ZnO nanoparticles in CH3NH3PbIxCl3-x:ZnO bulk heterojunction active layer. The presence of ZnO nanoparticles in the perovskite films enhances the conductivity and electron mobility. Efficient charge injection of CH3NH3PbIxCl3-x:ZnO film can improve charge extraction in the PSCs. Moreover, the PSCs with CH3NH3PbIxCl3-x:ZnO bulk heterojunction exhibit high fill factor of 77.3% and short current density of 22.71 mA cm−2, which is attributed to improved perovskite quality. The bulk heterojunction structure is fabricated by combining perovskite and metal oxides, which is of great importance to the development and commercialization of PSCs in the future." @default.
W2892353181 created "2018-09-27" @default.
W2892353181 creator A5023214008 @default.
W2892353181 creator A5033076947 @default.
W2892353181 creator A5033833870 @default.
W2892353181 creator A5035725463 @default.
W2892353181 creator A5039903736 @default.
W2892353181 creator A5041401457 @default.
W2892353181 creator A5042467158 @default.
W2892353181 creator A5047473994 @default.
W2892353181 creator A5084063404 @default.
W2892353181 date "2018-10-01" @default.
W2892353181 modified "2023-10-18" @default.
W2892353181 title "Improvement in the performance of inverted planar perovskite solar cells via the CH3NH3PbI3-xClx:ZnO bulk heterojunction" @default.
W2892353181 cites W1844081761 @default.
W2892353181 cites W1880477425 @default.
W2892353181 cites W1919182738 @default.
W2892353181 cites W1927627425 @default.
W2892353181 cites W1965464747 @default.
W2892353181 cites W1986717625 @default.
W2892353181 cites W1986829915 @default.
W2892353181 cites W1996472072 @default.
W2892353181 cites W1998099868 @default.
W2892353181 cites W1999717631 @default.
W2892353181 cites W2001043189 @default.
W2892353181 cites W2001574526 @default.
W2892353181 cites W2006619554 @default.
W2892353181 cites W2017203288 @default.
W2892353181 cites W2019358059 @default.
W2892353181 cites W2030024805 @default.
W2892353181 cites W2030422013 @default.
W2892353181 cites W2032939899 @default.
W2892353181 cites W2035920177 @default.
W2892353181 cites W2041549002 @default.
W2892353181 cites W2051456162 @default.
W2892353181 cites W2052989605 @default.
W2892353181 cites W2057327293 @default.
W2892353181 cites W2073726416 @default.
W2892353181 cites W2077711232 @default.
W2892353181 cites W2078019609 @default.
W2892353181 cites W2081640113 @default.
W2892353181 cites W2090775216 @default.
W2892353181 cites W2095477500 @default.
W2892353181 cites W2112517274 @default.
W2892353181 cites W2116004146 @default.
W2892353181 cites W2130566039 @default.
W2892353181 cites W2139843659 @default.
W2892353181 cites W2140380628 @default.
W2892353181 cites W2143338675 @default.
W2892353181 cites W2157372271 @default.
W2892353181 cites W2168786195 @default.
W2892353181 cites W2170822833 @default.
W2892353181 cites W2206784480 @default.
W2892353181 cites W2271355543 @default.
W2892353181 cites W2273706285 @default.
W2892353181 cites W2301347746 @default.
W2892353181 cites W2307803660 @default.
W2892353181 cites W2312567006 @default.
W2892353181 cites W2334527988 @default.
W2892353181 cites W2345455249 @default.
W2892353181 cites W2403433049 @default.
W2892353181 cites W2410619939 @default.
W2892353181 cites W2420926703 @default.
W2892353181 cites W2512813759 @default.
W2892353181 cites W2566605293 @default.
W2892353181 cites W2570261305 @default.
W2892353181 cites W2594404869 @default.
W2892353181 cites W2602985011 @default.
W2892353181 cites W2613314831 @default.
W2892353181 cites W2615325804 @default.
W2892353181 cites W2747942153 @default.
W2892353181 cites W2766217509 @default.
W2892353181 cites W2779100389 @default.
W2892353181 cites W2794208621 @default.
W2892353181 doi "https://doi.org/10.1016/j.jpowsour.2018.09.007" @default.
W2892353181 hasPublicationYear "2018" @default.
W2892353181 type Work @default.
W2892353181 sameAs 2892353181 @default.
W2892353181 citedByCount "18" @default.
W2892353181 countsByYear W28923531812018 @default.
W2892353181 countsByYear W28923531812019 @default.
W2892353181 countsByYear W28923531812020 @default.
W2892353181 countsByYear W28923531812021 @default.
W2892353181 countsByYear W28923531812022 @default.
W2892353181 countsByYear W28923531812023 @default.
W2892353181 crossrefType "journal-article" @default.
W2892353181 hasAuthorship W2892353181A5023214008 @default.
W2892353181 hasAuthorship W2892353181A5033076947 @default.
W2892353181 hasAuthorship W2892353181A5033833870 @default.
W2892353181 hasAuthorship W2892353181A5035725463 @default.
W2892353181 hasAuthorship W2892353181A5039903736 @default.
W2892353181 hasAuthorship W2892353181A5041401457 @default.
W2892353181 hasAuthorship W2892353181A5042467158 @default.
W2892353181 hasAuthorship W2892353181A5047473994 @default.
W2892353181 hasAuthorship W2892353181A5084063404 @default.
W2892353181 hasBestOaLocation W28923531812 @default.
W2892353181 hasConcept C127413603 @default.
W2892353181 hasConcept C155011858 @default.