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W3118755992 startingPage "717" @default.
W3118755992 abstract "In recent years, perovskite quantum dots (PQDs) with the incorporation of transition-metal ions for reducing toxicity and enhancing stability have been in a research hotspot. However, the PQDs containing transition-metal ions are quite unstable and display low photoluminescence quantum yields (PLQYs), owing to the existence of defects. Herein, we have endeavored to introduce simultaneous cation and anion exchange with cobalt and chloride ions into the host CH3NH3Pb1–xCoxBr3–2xCl2x PQDs followed by matrix encapsulation via poly(methyl methacrylate) (PMMA) as a favorable approach to stabilize PQDs with improved PLQY. We have utilized cobalt chloride as the precursor for doping ions. The emission wavelength can be regulated from green to cyan color with the increase in doping concentration without negotiating on color quality, which is believed to be the modification of band gap and corresponding electron density estimated from the density functional theory. A high PLQY of 95% is observed even after the incorporation of cobalt and chloride ions into host PQDs. We demonstrate white light-emitting diode (LED) prototypes for backlight applications using a PQDs/PMMA composite on a blue LED chip, which exhibits excellent stability toward an ambient and robust atmosphere and provides a wide-color gamut of 124% of the NTSC standard. This research paves a way for the research community to synthesize highly efficient, color-tunable PQDs for wide-color backlighting applications." @default.
W3118755992 created "2021-01-18" @default.
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W3118755992 date "2021-01-04" @default.
W3118755992 modified "2023-10-16" @default.
W3118755992 title "CH3NH3Pb1–xCoxBr3–2xCl2x Perovskite Quantum Dots for Wide-Color Backlighting" @default.
W3118755992 cites W1542605581 @default.
W3118755992 cites W1981368803 @default.
W3118755992 cites W1988762313 @default.
W3118755992 cites W2002511619 @default.
W3118755992 cites W2012964644 @default.
W3118755992 cites W2021291198 @default.
W3118755992 cites W2022085321 @default.
W3118755992 cites W2036113194 @default.
W3118755992 cites W2044880431 @default.
W3118755992 cites W2070928527 @default.
W3118755992 cites W2087585288 @default.
W3118755992 cites W2120145199 @default.
W3118755992 cites W2127364133 @default.
W3118755992 cites W2146406469 @default.
W3118755992 cites W2158821783 @default.
W3118755992 cites W2234054032 @default.
W3118755992 cites W2264781764 @default.
W3118755992 cites W2279246136 @default.
W3118755992 cites W2280911340 @default.
W3118755992 cites W2326810084 @default.
W3118755992 cites W2411486899 @default.
W3118755992 cites W2507772826 @default.
W3118755992 cites W2509317409 @default.
W3118755992 cites W2523813082 @default.
W3118755992 cites W2531303026 @default.
W3118755992 cites W2560746844 @default.
W3118755992 cites W2562911332 @default.
W3118755992 cites W2581618860 @default.
W3118755992 cites W2583827446 @default.
W3118755992 cites W2593574896 @default.
W3118755992 cites W2606511483 @default.
W3118755992 cites W2607208374 @default.
W3118755992 cites W2611277466 @default.
W3118755992 cites W2745520865 @default.
W3118755992 cites W2746192832 @default.
W3118755992 cites W2767101995 @default.
W3118755992 cites W2770281321 @default.
W3118755992 cites W2777016951 @default.
W3118755992 cites W2778575245 @default.
W3118755992 cites W2789631006 @default.
W3118755992 cites W2792545677 @default.
W3118755992 cites W2801484882 @default.
W3118755992 cites W2827420868 @default.
W3118755992 cites W2884598928 @default.
W3118755992 cites W2884894108 @default.
W3118755992 cites W2888776887 @default.
W3118755992 cites W2888883728 @default.
W3118755992 cites W2889984410 @default.
W3118755992 cites W2897834852 @default.
W3118755992 cites W2901064384 @default.
W3118755992 cites W2901473437 @default.
W3118755992 cites W2901518879 @default.
W3118755992 cites W2904897305 @default.
W3118755992 cites W2908579597 @default.
W3118755992 cites W2912440600 @default.
W3118755992 cites W2919043374 @default.
W3118755992 cites W2936044567 @default.
W3118755992 cites W2938826826 @default.
W3118755992 cites W2943909434 @default.
W3118755992 cites W2950239905 @default.
W3118755992 cites W2950988306 @default.
W3118755992 cites W2951916455 @default.
W3118755992 cites W2955342232 @default.
W3118755992 cites W2985731325 @default.
W3118755992 cites W2990307786 @default.
W3118755992 cites W2992373308 @default.
W3118755992 cites W3019118283 @default.
W3118755992 cites W3099914055 @default.
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W3118755992 doi "https://doi.org/10.1021/acsanm.0c03019" @default.
W3118755992 hasPublicationYear "2021" @default.
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