2019
DOI: 10.1002/adma.201902928
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Homogeneous Freestanding Luminescent Perovskite Organogel with Superior Water Stability

Abstract: intrinsic optical properties, such as bandgap tunability, long carrier lifetime, high photoluminescence quantum yield, and narrow emission linewidths, [2] render them promising materials for display applications. Using perovskite quantum dots (PQDs) or perovskite nanoparticles (PNPs) including all-inorganic (e.g., CsPbX 3 ) and organic-inorganic (e.g., CH 3 NH 3 PbX 3 ) ones, a broad range of high-performance solar cells, [3] light emitting diodes (LED), [4] lasing, [5,6] waveguides, [7] photodetectors, [8,9] … Show more

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Cited by 54 publications
(50 citation statements)
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“…Strategies of incorporating PNCs into polymer networks have been proposed to enhance external stabilities [9][10][11][12][13][14][15] . They are also suitable for preparing solid-state stretchable light-emitting layers, because they can simultaneously provide emitters and matrices.…”
mentioning
confidence: 99%
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“…Strategies of incorporating PNCs into polymer networks have been proposed to enhance external stabilities [9][10][11][12][13][14][15] . They are also suitable for preparing solid-state stretchable light-emitting layers, because they can simultaneously provide emitters and matrices.…”
mentioning
confidence: 99%
“…Some nanocomposites effectively enhance PLQEs and environmental stabilities, while their rigidity or brittleness is incompatible with stretchable applications [9][10][11] . While elastomeric nanocomposites have also been reported [12][13][14][15] , the PNC is physically mixed and dispersed in those matrices; therefore, their luminescence efficiency or environmental stability has remained insufficient for practical application. Furthermore, their elastic moduli are the range of several megapascals, which is incompatible with recently developed soft ISELDs 4 .…”
mentioning
confidence: 99%
“…Compared to conventional isotropic organohydrogel systems, the structured ELP-surfactant organofibers show extraordinary mechanical performance. For example, synthesized polymer gel networks have limited tensile strength at the scale of kiloPascal level, [28][29][30][31] and show tenuous modulus property. [32][33][34][35] In our…”
Section: Communicationsmentioning
confidence: 99%
“…Interestingly, organogel-based ELP fibers can be easily spinning from the highly viscous matrices simply drawing via a needle, showing high homogeneity (Figure 1 D, E and Figure S2). [28] ethylene glycol 0.035 / 350-1000 / Cellulose-Gel fiber [29] H 2 O/Glycerol 0.14 0.1 43 0.055 PNP [30] Toluene % 0.25 110 200-900 / Na-alginate-polyacrylamide [31] H 2 O % 0.25 % 0.08 % 700 9 KJ m À2 PNAGA [32] H 2 O % 1 % 0.15 600-1400 1 KJ m À2 P(NaSS-co-MPTC) [33] H 2 O 1-4 0.01-8 % 800 4 KJ m À2 CCP-MCP [33] H 2 O 2.5 0.12 50-500 1.3 KJ m À2 GH-Fiber [34] H 2 O/Glycerol 4.7 16 150 80 KJ m À2 MAPAH [35] H 2 O/DMSO 5.6 AE 0.6 / 1180 AE 100 27 AE 3 Figure 1. Schematic illustration of the assembly and preparation of protein-based organogel fibers.…”
mentioning
confidence: 99%
“…Compared to conventional isotropic organohydrogel systems, the structured ELP-surfactant organofibers show extraordinary mechanical performance. For example, synthesized polymer gel networks have limited tensile strength at the scale of kiloPascal level, [28][29][30][31] and show tenuous modulus property. [32][33][34][35] In our system, the strength of anisotropic ELP-surfactant organofibers is at least one order of magnitude higher than the isotropic counterparts aforementioned, highlighting their robustness in term of mechanical properties (Table 1).…”
Section: Zuschriftenmentioning
confidence: 99%