FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4286515519> ?p ?o ?g. }

• W4286515519 endingPage "1943" @default.
• W4286515519 startingPage "1931" @default.
• W4286515519 abstract "<h2>Summary</h2> It is arduous to prepare thin charge transport layers (CTLs) of only a few nanometers in thickness for meter-sized products, particularly for commonly used solution processes. Thus, it is desirable to take advantages of both solution-processed perovskites and vacuum-deposited CTLs. Herein, a surface redox engineering (SRE) is proposed for vacuum-deposited NiO_x to make it match with the slot-die-coated perovskite films. Not only does it eliminate the de-wetting problem of perovskite ink, but it also imparts enhanced electronic properties at buried interfaces. Consequently, high-performance PSCs are achieved with amazing stability and outstanding power conversion efficiencies of 23.4% and 21.3% for rigid and flexible devices, respectively. Furthermore, perovskite submodules of area 156 × 156 mm² are successfully assembled with a remarkable PCE of 18.6% along with excellent stability. The SRE provides a strategy to use the advantages of both vacuum-fabricated CTLs with wet-processed perovskites for the development of large-area perovskite modules." @default.
• W4286515519 created "2022-07-22" @default.
• W4286515519 creator A5008220922 @default.
• W4286515519 creator A5009239975 @default.
• W4286515519 creator A5012014956 @default.
• W4286515519 creator A5030409523 @default.
• W4286515519 creator A5032585231 @default.
• W4286515519 creator A5039008721 @default.
• W4286515519 creator A5049264813 @default.
• W4286515519 creator A5057185598 @default.
• W4286515519 creator A5057511484 @default.
• W4286515519 creator A5069756122 @default.
• W4286515519 creator A5073531557 @default.
• W4286515519 creator A5082643799 @default.
• W4286515519 creator A5090366405 @default.
• W4286515519 creator A5091362073 @default.
• W4286515519 creator A5091565158 @default.
• W4286515519 date "2022-08-01" @default.
• W4286515519 modified "2023-10-12" @default.
• W4286515519 title "Surface redox engineering of vacuum-deposited NiOx for top-performance perovskite solar cells and modules" @default.
• W4286515519 cites W1989609855 @default.
• W4286515519 cites W2041416118 @default.
• W4286515519 cites W2044768061 @default.
• W4286515519 cites W2067136007 @default.
• W4286515519 cites W2102124889 @default.
• W4286515519 cites W2111128148 @default.
• W4286515519 cites W2198068928 @default.
• W4286515519 cites W2314617000 @default.
• W4286515519 cites W2334105279 @default.
• W4286515519 cites W2390031586 @default.
• W4286515519 cites W2469859909 @default.
• W4286515519 cites W2515261178 @default.
• W4286515519 cites W2530367706 @default.
• W4286515519 cites W2556289203 @default.
• W4286515519 cites W2588813628 @default.
• W4286515519 cites W2608884063 @default.
• W4286515519 cites W2614175205 @default.
• W4286515519 cites W2766093740 @default.
• W4286515519 cites W2773808020 @default.
• W4286515519 cites W2791376201 @default.
• W4286515519 cites W2791669845 @default.
• W4286515519 cites W2805341314 @default.
• W4286515519 cites W2811284615 @default.
• W4286515519 cites W2885088646 @default.
• W4286515519 cites W2895878957 @default.
• W4286515519 cites W2909676381 @default.
• W4286515519 cites W2946232135 @default.
• W4286515519 cites W2946622905 @default.
• W4286515519 cites W2953781004 @default.
• W4286515519 cites W2961880812 @default.
• W4286515519 cites W2974866628 @default.
• W4286515519 cites W2995089958 @default.
• W4286515519 cites W2995454998 @default.
• W4286515519 cites W2998919826 @default.
• W4286515519 cites W3003718517 @default.
• W4286515519 cites W3019744350 @default.
• W4286515519 cites W3039580051 @default.
• W4286515519 cites W3041458416 @default.
• W4286515519 cites W3043099007 @default.
• W4286515519 cites W3091827613 @default.
• W4286515519 cites W3092802139 @default.
• W4286515519 cites W3106462634 @default.
• W4286515519 cites W3125088207 @default.
• W4286515519 cites W3130174494 @default.
• W4286515519 cites W3145700886 @default.
• W4286515519 cites W3173400515 @default.
• W4286515519 cites W3175227497 @default.
• W4286515519 cites W3179103525 @default.
• W4286515519 cites W3199170429 @default.
• W4286515519 cites W3205568106 @default.
• W4286515519 cites W4205977985 @default.
• W4286515519 cites W4210727748 @default.
• W4286515519 cites W4225134134 @default.
• W4286515519 cites W4225353727 @default.
• W4286515519 doi "https://doi.org/10.1016/j.joule.2022.06.026" @default.
• W4286515519 hasPublicationYear "2022" @default.
• W4286515519 type Work @default.
• W4286515519 citedByCount "43" @default.
• W4286515519 countsByYear W42865155192022 @default.
• W4286515519 countsByYear W42865155192023 @default.
• W4286515519 crossrefType "journal-article" @default.
• W4286515519 hasAuthorship W4286515519A5008220922 @default.
• W4286515519 hasAuthorship W4286515519A5009239975 @default.
• W4286515519 hasAuthorship W4286515519A5012014956 @default.
• W4286515519 hasAuthorship W4286515519A5030409523 @default.
• W4286515519 hasAuthorship W4286515519A5032585231 @default.
• W4286515519 hasAuthorship W4286515519A5039008721 @default.
• W4286515519 hasAuthorship W4286515519A5049264813 @default.
• W4286515519 hasAuthorship W4286515519A5057185598 @default.
• W4286515519 hasAuthorship W4286515519A5057511484 @default.
• W4286515519 hasAuthorship W4286515519A5069756122 @default.
• W4286515519 hasAuthorship W4286515519A5073531557 @default.
• W4286515519 hasAuthorship W4286515519A5082643799 @default.
• W4286515519 hasAuthorship W4286515519A5090366405 @default.
• W4286515519 hasAuthorship W4286515519A5091362073 @default.
• W4286515519 hasAuthorship W4286515519A5091565158 @default.
• W4286515519 hasBestOaLocation W42865155191 @default.
• W4286515519 hasConcept C127413603 @default.

• next