2021
DOI: 10.1021/acsenergylett.1c00250
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Light-Emitting Diodes with Manganese Halide Tetrahedron Embedded in Anti-Perovskites

Abstract: The formability of antiperovskite [MX4]­XA3-type (A­(I) = alkali metals; M­(II) = transition metals; X = Cl, Br, I) can be predicted by building the analysis theory. To validate the prediction model, a series of cesium–manganese antiperovskite single crystals with different halogen mixing ratios were synthesized, which not only have [MX4]­XA3-type structures but also are ideal luminescent materials. As the most pure green emission fluorescent antiperovskite, [MnCl2Br2]­BrCs3 shows 520 nm emission with the high… Show more

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Cited by 25 publications
(30 citation statements)
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“…These energy bands correspond to the following energy levels: 6 A 1g ( 6 S) → 4 T 1 (P), 6 A 1g ( 6 S) → 4 E g (D), 6 A 1g ( 6 S) → 4 T 2g (D), 6 A 1g ( 6 S) → 4 A 1g 4 E g (G) and 6 A 1g ( 6 S) → 4 T 2g (G). [ 52,54 ] According to the crystal field theory, these characteristic peaks and energy levels are the Mn (II) absorption (Figure 2b). The D q /B values (where B is Racah parameter and D q is crystal field crystal field stability energy) calculated from Figure 2b are 2.22 and 1.09 for K 2 MnCl 2 Br 2 and K 2 MnCl 2 I 2 , respectively.…”
Section: Resultsmentioning
confidence: 99%
See 1 more Smart Citation
“…These energy bands correspond to the following energy levels: 6 A 1g ( 6 S) → 4 T 1 (P), 6 A 1g ( 6 S) → 4 E g (D), 6 A 1g ( 6 S) → 4 T 2g (D), 6 A 1g ( 6 S) → 4 A 1g 4 E g (G) and 6 A 1g ( 6 S) → 4 T 2g (G). [ 52,54 ] According to the crystal field theory, these characteristic peaks and energy levels are the Mn (II) absorption (Figure 2b). The D q /B values (where B is Racah parameter and D q is crystal field crystal field stability energy) calculated from Figure 2b are 2.22 and 1.09 for K 2 MnCl 2 Br 2 and K 2 MnCl 2 I 2 , respectively.…”
Section: Resultsmentioning
confidence: 99%
“…At the same time, there are many reports in the literature that manganese, selenium, germanium, silver, and bismuth perovskite materials show great potential properties, which provides a promising way to avoid the environmental problem caused by using lead. [ 44–52 ] Here, we adopt a synthesis method reported by Biswas for 2D manganese perovskites that is different from the two common methods aforementioned. [ 53 ] We use different halogen elements as a spacer molecule to prepare a 2D layered perovskite, which not only has a layered structure and special electrical properties but also maintains the crystal structure of bulk perovskite.…”
Section: Introductionmentioning
confidence: 99%
“…For example, the measurement of excitation spectra is necessary to know the involved excitons with different energy states and different radiative recombination rates. In our previous work [19], we measured the excitation spectra of a series of [MX 4 ] tetrahedral perovskites with different halogen elements. The wavelength range of the pumping light was 250~480 nm.…”
Section: Resultsmentioning
confidence: 99%
“…This unique structure can effectively reduce the interaction degree of luminescence centers and increase the spatial constraint effect so that these materials have high PLQY and luminescence color stability. Yan et al [19] prepared perovskite thin films by using the double-source thermal evaporation method, and prepared the first all-inorganic cesium manganese halide anti-perovskite light-emitting diode, with a maximum external quantum efficiency of 12.5%, maximum luminous brightness of 3990 cd/m 2 , and half-life of 756 min at 5.0 V.…”
Section: Introductionmentioning
confidence: 99%
“…As a potential green-emission material, manganese halide tetrahedrons coordinated with an organic ligand have attracted researchers for several years. The synthesis proceeds at room temperature under moderate conditions compared with other luminescent materials (hot injection for perovskite quantum dots or high-temperature calcination for phosphors). By tuning the distance of the emission centers, such as the Cr–Cr ion pair, various optical characteristics of luminescent materials can be exhibited .…”
mentioning
confidence: 99%