Rare-earth-containing perovskite nanomaterials: design, synthesis, properties and applications

Zeng, Zhichao; Xu, Yueshan; Zhang, Zheshan; Gao, Zhansheng; Luo, Meng; Yin, Zongyou; Zhang, Chao; Xu, Jun; Huang, Bolong; Luo, Feng; Du, Yaping; Yan, Chun‐Hua

doi:10.1039/c9cs00330d

Cited by 259 publications

(139 citation statements)

References 330 publications

(376 reference statements)

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“…demonstrated including main group elements (e.g., Al, Ca, Sr, Bi), [7][8][9][10] transition metals (e.g., Mn, Ni, Cd), [11][12][13][14][15][16][17][18][19][20][21][22][23][24][25] and rare earth elements (e.g., Yb, Ce, Pr). [26][27][28][29][30][31][32][33][34][35][36][37] Among all the dopant-induced properties, the emergence of new emission bands due to the introduction of additional radiative relaxation channels of excitons has been intriguing and promising in particular. [2] To this extent, doping Mn 2+ ions into host semiconductor crystals has historically been one of the most-studied model systems due to the possible introduction of a dopant emission channel through the d-d transition of Mn 2+ ion centers.…”

Section: Doi: 101002/advs202001317mentioning

confidence: 99%

Mn²⁺/Yb³⁺ Codoped CsPbCl₃ Perovskite Nanocrystals with Triple‐Wavelength Emission for Luminescent Solar Concentrators

et al. 2020

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Doping metal ions into lead halide perovskite nanocrystals (NCs) has attracted great attention over the past few years due to the emergence of novel properties relevant to optoelectronic applications. Here, the synthesis of Mn2+/Yb3+ codoped CsPbCl3 NCs through a hot‐injection technique is reported. The resulting NCs show a unique triple‐wavelength emission covering ultraviolet/blue, visible, and near‐infrared regions. By optimizing the dopant concentrations, the total photoluminescence quantum yield (PL QY) of the codoped NCs can reach ≈125.3% due to quantum cutting effects. Mechanism studies reveal the efficient energy transfer processes from host NCs to Mn2+ and Yb3+ dopant ions, as well as a possible inter‐dopant energy transfer from Mn2+ to Yb3+ ion centers. Owing to the high PL QYs and minimal reabsorption loss, the codoped perovskite NCs are demonstrated to be used as efficient emitters in luminescent solar concentrators, with greatly enhanced external optical efficiency compared to that of using solely Mn2+ doped CsPbCl3 NCs. This study presents a new model system for enriching doping chemistry studies and future applications of perovskite NCs.

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Section: Doi: 101002/advs202001317mentioning

confidence: 99%

Mn²⁺/Yb³⁺ Codoped CsPbCl₃ Perovskite Nanocrystals with Triple‐Wavelength Emission for Luminescent Solar Concentrators

et al. 2020

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“…Therefore, the utilization of RE-1 in the field of security printing for anti-counterfeiting labels or confidential documents is highly promising in the future. [58] We have investigated the Cs 2 AgInCl 6 regarding the projected density of states (PDOSs) and lattice structure through density functional theory (DFT). Cs 2 AgInCl 6 is constructed by two octahedrons [AgCl 6 ] and [InCl 6 ], which shows uniform AgCl and InCl bond length of 2.751 and 2.581 Å, respectively.…”

mentioning

confidence: 99%

Multimodal Luminescent Yb³⁺/Er³⁺/Bi³⁺‐Doped Perovskite Single Crystals for X‐ray Detection and Anti‐Counterfeiting

et al. 2020

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luminescence, and also the recent hologram technique. [1-3] Compared to other conventional techniques, the fluorescence printing patterns supply promising high security to the key information valuable documents due to the tunable emission properties. [4,5] As counterfeiting technology has also been quickly developed, the traditional mono-mode anti-counterfeiting is far from the requirement of practical applications to guarantee a high level of data and information safety. The traditional anti-counterfeiting luminescence is achieved by the mono-mode downshifting (DS) luminescence, which converts the high energy photon into lower energy luminescence. To address such concern, developing more complicated anti-counterfeiting techniques by increasing the luminescent modes becomes the most challenging topic. Presently, the realization of concurrent upconversion (UC) and DS have been successfully utilized in anti-counterfeiting based on the lanthanide-based dopants. [6-9] The Eu-doped down-shift luminescent materials have been applied in the Euro banknotes, which enables the visible photoluminescence (PL) based on UV lamp excitation. Meanwhile, the Bank of China also introduced the Yb/Er-doped UC phosphors in the banknotes as the counterfeiting technique, which emits the Anti-counterfeiting techniques have become a global topic since they is correlated to the information and data safety, in which multimodal luminescence is one of the most desirable candidates for practical applications. However, it is a long-standing challenge to actualize robust multimodal luminescence with high thermal stability and humid resistance. Conventionally, the multimodal luminescence is usually achieved by the combination of upconversion and downshifting luminescence, which only responds to the electromagnetic waves in a limited range. Herein, the Yb 3+ /Er 3+ /Bi 3+ co-doped Cs 2 Ag 0.6 Na 0.4 InCl 6 perovskite material is reported as an efficient multimodal luminescence material. Beyond the excitation of ultraviolet light and nearinfrared laser (980 nm), this work extends multimodal luminescence to the excitation of X-ray. Besides the flexible excitation sources, this material also shows the exceptional luminescence performance, in which the X-ray detection limit reaches the level of nGy s −1 , indicating a great potential for further application as a colorless pigment in the anti-counterfeiting field. More importantly, the obtained double perovskite features high stability against both humidity and temperature up to 400 °C. This integrated multifunctional luminescent material provides a new directional solution for the development of multifunctional optical materials and devices.

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“…In this process, the nucleation and growth were started by the instantaneous supersaturation without a separation in timeline as in HI synthesis [56]. Being more convenient for large-scale production though, RT synthesis also shows some drawbacks like limited control of QDs shape and possible dissolving of the produced QDs due to the existence of polar solvents [65][66][67][68].…”

Section: Fabrication Strategies Of Halide Perovskite Quantum Dotsmentioning

confidence: 99%

Recent advances in synthesis and application of perovskite quantum dot based composites for photonics, electronics and sensors

Wang

Ding

Mao

et al. 2020

Science and Technology of Advanced Materials

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Rare-earth-containing perovskite nanomaterials: design, synthesis, properties and applications

Abstract: Rare-earth-containing halide and oxide perovskite nanomaterials are systematically reviewed for the first time, providing interdisciplinary challenges and opportunities to researchers.

Cited by 259 publications

References 330 publications

Mn²⁺/Yb³⁺ Codoped CsPbCl₃ Perovskite Nanocrystals with Triple‐Wavelength Emission for Luminescent Solar Concentrators

Mn²⁺/Yb³⁺ Codoped CsPbCl₃ Perovskite Nanocrystals with Triple‐Wavelength Emission for Luminescent Solar Concentrators

Multimodal Luminescent Yb³⁺/Er³⁺/Bi³⁺‐Doped Perovskite Single Crystals for X‐ray Detection and Anti‐Counterfeiting

Recent advances in synthesis and application of perovskite quantum dot based composites for photonics, electronics and sensors

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Rare-earth-containing perovskite nanomaterials: design, synthesis, properties and applications

Abstract: Rare-earth-containing halide and oxide perovskite nanomaterials are systematically reviewed for the first time, providing interdisciplinary challenges and opportunities to researchers.

Cited by 259 publications

References 330 publications

Mn2+/Yb3+ Codoped CsPbCl3 Perovskite Nanocrystals with Triple‐Wavelength Emission for Luminescent Solar Concentrators

Mn2+/Yb3+ Codoped CsPbCl3 Perovskite Nanocrystals with Triple‐Wavelength Emission for Luminescent Solar Concentrators

Multimodal Luminescent Yb3+/Er3+/Bi3+‐Doped Perovskite Single Crystals for X‐ray Detection and Anti‐Counterfeiting

Recent advances in synthesis and application of perovskite quantum dot based composites for photonics, electronics and sensors

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Mn²⁺/Yb³⁺ Codoped CsPbCl₃ Perovskite Nanocrystals with Triple‐Wavelength Emission for Luminescent Solar Concentrators

Mn²⁺/Yb³⁺ Codoped CsPbCl₃ Perovskite Nanocrystals with Triple‐Wavelength Emission for Luminescent Solar Concentrators

Multimodal Luminescent Yb³⁺/Er³⁺/Bi³⁺‐Doped Perovskite Single Crystals for X‐ray Detection and Anti‐Counterfeiting