2021
DOI: 10.1002/adma.202008225
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Room‐Temperature Magnetic Field Effect on Excitonic Photoluminescence in Perovskite Nanocrystals

Abstract: However, these devices can only be operated at cryogenic temperature. As temperature increases, the spin polarizations are quickly randomized by thermal fluctuation with the thermal energy (25 meV at 293 K) much larger than the Zeeman energy splitting. [6,10] Great efforts have been made to promote the room temperature (RT) spin-polarization, and few studies successfully used spin diffusion from a RT ferromagnet to semiconductor epitaxy layers-the so-called extrinsic MFE, to realize RT spin-polarization. [11][… Show more

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Cited by 34 publications
(38 citation statements)
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“…The representative high-resolution TEM (HRTEM) image and corresponding fast Fourier transform (FFT) pattern indicate these NCs are single crystalline with legible lattice distances of 0.37 and 0.42 nm, corresponding well to the (11)(12)(13)(14)(15)(16)(17)(18)(19)(20) and (1-105) planes of the hexagonal CsMnCl 3 (Figure 1c). Three distinct diffraction rings can be identified from the selected area electron diffraction (SAED) pattern, which match with the (11)(12)(13)(14)(15)(16)(17)(18)(19)(20), (20)(21)(22)(23)(24)(25), and (22)(23)(24)(25)(26)(27)(28)(29)(30)(31)(32)(33)(34)(35)(36)(37)(38)(39)(40) planes of the hexagonal CsMnCl 3 (Figure 1d). To further confirm the phase of these NCs, powder X-ray di...…”
Section: Resultsmentioning
confidence: 91%
See 1 more Smart Citation
“…The representative high-resolution TEM (HRTEM) image and corresponding fast Fourier transform (FFT) pattern indicate these NCs are single crystalline with legible lattice distances of 0.37 and 0.42 nm, corresponding well to the (11)(12)(13)(14)(15)(16)(17)(18)(19)(20) and (1-105) planes of the hexagonal CsMnCl 3 (Figure 1c). Three distinct diffraction rings can be identified from the selected area electron diffraction (SAED) pattern, which match with the (11)(12)(13)(14)(15)(16)(17)(18)(19)(20), (20)(21)(22)(23)(24)(25), and (22)(23)(24)(25)(26)(27)(28)(29)(30)(31)(32)(33)(34)(35)(36)(37)(38)(39)(40) planes of the hexagonal CsMnCl 3 (Figure 1d). To further confirm the phase of these NCs, powder X-ray di...…”
Section: Resultsmentioning
confidence: 91%
“…The peak positions are not monotonous shift with temperature and a spinodal appeared at around 120 K. From the literatures, such a tendency in Mn-doped NCs has been attributed to the Mn-Mn magnetic coupling. [23,36] Furthermore, the coupling of adjacent Mn 2+ ions leads further splitting of 6 A 1 into six multiples (S = 0-5) and 4 T 1 into four (S = 1-4). The narrowed the energy gap between 6 A 1 and 4 T 1 (Figure S10, Supporting Information) induces the red shifted emissions from Mn 2+ ions and accelerates the recombination rate.…”
Section: Resultsmentioning
confidence: 99%
“…The spin polarization relaxation time of hybrid metal-halide perovskite materials is shorter than III–V systems, reaching the picosecond range at room temperature and nanosecond range at low temperatures. To the best of our knowledge, there are no reports investigating the spin polarization dynamics of chiral lead-free perovskites. However, we believe that chiral perovskites should offer a high degree of spin polarization and long spin polarization relaxation times due to the unique combination of advantageous properties provided by chiral materials and lead-free HOIPs.…”
Section: Introductionmentioning
confidence: 99%
“…The TEM morphological images in Figure b,c show that both CsPbBr 3 and Mn-CsPbBr 3 NPLs have a rectangular shape with an average size of around 45 nm. HR-TEM images corresponding to the (101) Miller plane of the 3D perovskite orthorhombic phase are shown in the inset of Figure b,c . The observed interplanar spacing for the (101) plane of CsPbBr 3 and Mn-CsPbBr 3 NPLs was 0.43 and 0.41 nm, respectively.…”
Section: Resultsmentioning
confidence: 96%