High-Quality Cs3Cu2I5@PMMA Scintillator Films Assisted by Multiprocessing for X-ray Imaging

Zhou, Wei; Zhu, Xiaodie; Yu, Jianguo; Mou, Dedan; Li, Hongxing; Kong, Lingyu; Lang, Tianchun; Peng, Lingling; Chen, Wenbo; Xu, Xuhui; Liu, Bitao

doi:10.1021/acsami.3c05856

Cited by 18 publications

(8 citation statements)

References 46 publications

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“…This value is lower than the dose rate required for X-ray diagnosis (5.5 μGy s –1 ) . The detection limit of m PC-M@PLA thin film is comparable to the values reported recently for lead-based perovskites CsPbBr 3 -DMSO (564 n Gy s –1 ), CsPbBr 3 –CsPb 2 Br 5 (1.130 μGy s –1 ), and CsPbBr 3 @PMMA (0.12 μGy s –1 ) . A plastic capsule with a metal spring inside was first placed on the background of PC-M@PLA.…”

Section: Resultssupporting

confidence: 67%

“…Although both composite films emit red light, the stability and emission intensity of PC-M@PMMA are lower than that of PC-M@PLA (Figure 5a). This may be due to the fact that the carbonyl groups locate on the side chain of PMMA, resulting in a large free volume in PMMA. , As a result, oxygen easily penetrates the polymer, affecting the stability of PC-M@PMMA. On the contrary, the CO in the main chains of PLA directly interacts with the amino group on the surface of perovskites through hydrogen bonding.…”

Section: Resultsmentioning

confidence: 99%

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Passivation of Organic–Inorganic Hybrid Perovskite with Poly(lactic Acid) to Achieve Stable Red-Light Flexible Films

Kang,

Wang,

et al. 2024

Inorg. Chem.

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Low-dimensional organic−inorganic hybrid perovskites (OIHPs) have shown significant potential in the optoelectronic field due to their adjustable structure and properties. However, the poor air stability and flexibility of the OIHP crystals limit their further development. Herein, three OIHP crystals have been synthesized using cadmium chloride and the isomer of phenylenediamine as raw materials. Mn 2+ doping turns on the red-light emission of Cd-based OIHPs at around 625 nm. Interestingly, the organic ligands with different steric hindrance can induce a transition of the OIHP structure from two dimensions (2D) to one dimension (1D), thereby regulating the quantum yield of red luminescence in the range of 38.4% to nearly 100%. It is found that the surface-exposed amino groups are easy to oxidize, resulting in the instability of these OIHP crystals. Therefore, poly(lactic acid) (PLA) is selected to passivate OIHPs through hydrogen bonding between C�O of PLA and −NH 2 on the surface of OIHPs. As a result, the production of OIHP-based flexible films with highly efficient and stable red emission can be obtained after being encapsulated by PLA. They demonstrate enormous application potential in flexible X-ray imaging. This study not only realizes stable perovskite films but also provides an effective design idea for red flexible scintillators.

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Section: Resultssupporting

confidence: 67%

Section: Resultsmentioning

confidence: 99%

Passivation of Organic–Inorganic Hybrid Perovskite with Poly(lactic Acid) to Achieve Stable Red-Light Flexible Films

Kang,

Wang,

et al. 2024

Inorg. Chem.

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“…However, it is worth noting that exceeding the optimal content of PMMA may result in a decline in the overall content of crystallized Cs 3 Cu 2 I 5 NCs within the film. 24 Consequently, this reduction in the NCs content directly correlates with a decrease in the emission intensity of the film (Figure 2f). In addition, when the content of PMMA is further increased, significant phase separation becomes evident in the TEM image and photograph of the Cs 3 Cu 2 I 5 @PVDF/50% PMMA film under UV light (Figure S5).…”

Section: ■ Results and Discussionmentioning

confidence: 90%

High-Resolution X-ray Image from Copper-Based Perovskite Hybrid Polymer

Hao,

Nie,

Zhu

et al. 2024

ACS Appl. Mater. Interfaces

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Cs3Cu2I5 nanocrystals (NCs) are considered to be promising materials due to their high photoluminescence efficiency, lack of lead toxicity, and X-ray responsiveness. However, during the crystallization process, NCs are prone to agglomeration and exhibit uneven size distribution, resulting in several light scattering that severely affect their imaging resolution. Herein, we successfully developed a high-resolution scintillator film by growing copper-based perovskite NCs within a hybrid polymer matrix. By leveraging the ingenious integration of polyvinylidene fluoride (PVDF) and polymethyl methacrylate (PMMA), the size and distribution uniformity of Cs3Cu2I5 NCs can be effectively controlled. Consequently, a high spatial resolution of 14.3 lp mm–1 and a low detection limit of 105 nGy s–1 are achieved, and the scintillator film has excellent flexibility and stability. These results highlight the promising application of Cs3Cu2I5 scintillator films in low-cost, flexible, and high-performance medical imaging.

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“…Copper-based halides have emerged as an alternative to CsPbBr 3 due to their efficient radioluminescence (RL) and nontoxicity. − Cs 3 Cu 2 Cl 5 was one of the most competitive candidates for X-ray scintillators, on account of its near-unity photoluminescence quantum yield (PLQY) and negligible reabsorption. Zhou et al synthesized submicron Cs 3 Cu 2 Cl 5 crystals and nanocrystals (NCs) via microwave and hot-injection methods, respectively. , The PL QY of submicrometer crystals (72.4%) was lower than that of NCs (94.6%), while the spatial resolution was much higher (20 lp/mm; NCs:9.6 lp/mm).…”

Section: Introductionmentioning

confidence: 99%

Transparent and Planar Cs₃Cu₂Cl₅ Crystals for Micrometer-Resolution X-ray Imaging Screen

Xiang,

Shen,

Zhang

et al. 2024

ACS Appl. Mater. Interfaces

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Copper-based (I) halide perovskites have emerged as a promising candidate for scintillation screens in X-ray inspection and imaging areas due to their solution processability and high light yield. Here, a centimeter-sized Cs 3 Cu 2 Cl 5 single crystal was grown by a slow-cooling method. The planar orientation was controlled in a space-confined chamber, generating a planar crystal which is readily used for a scintillation screen without any further shaping. The crystal exhibited a unity photoluminescence quantum yield and superior scintillation performance. The Cs 3 Cu 2 Cl 5 single crystal exhibited a high light yield up to 95,000 photons/ MeV, which enabled an X-ray detector of a detection limit down to 2.7 μGy air /s. The homemade imager demonstrated a spatial resolution of 105 lp/mm, representing an unprecedented micrometer resolution in laboratory. Importantly, the stability of Cs 3 Cu 2 Cl 5 was significantly improved by a new surface passivation procedure, whereby the passivated crystal reserved its phase after 6 months' storage in a vial. This work introduced a new solution-based synthetic method for two-dimensional scintillating crystals, opening many avenues to high-performance X-ray imaging applications.

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High-Quality Cs₃Cu₂I₅@PMMA Scintillator Films Assisted by Multiprocessing for X-ray Imaging

Cited by 18 publications

References 46 publications

Passivation of Organic–Inorganic Hybrid Perovskite with Poly(lactic Acid) to Achieve Stable Red-Light Flexible Films

Passivation of Organic–Inorganic Hybrid Perovskite with Poly(lactic Acid) to Achieve Stable Red-Light Flexible Films

High-Resolution X-ray Image from Copper-Based Perovskite Hybrid Polymer

Transparent and Planar Cs₃Cu₂Cl₅ Crystals for Micrometer-Resolution X-ray Imaging Screen

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High-Quality Cs3Cu2I5@PMMA Scintillator Films Assisted by Multiprocessing for X-ray Imaging

Cited by 18 publications

References 46 publications

Passivation of Organic–Inorganic Hybrid Perovskite with Poly(lactic Acid) to Achieve Stable Red-Light Flexible Films

Passivation of Organic–Inorganic Hybrid Perovskite with Poly(lactic Acid) to Achieve Stable Red-Light Flexible Films

High-Resolution X-ray Image from Copper-Based Perovskite Hybrid Polymer

Transparent and Planar Cs3Cu2Cl5 Crystals for Micrometer-Resolution X-ray Imaging Screen

Contact Info

Product

Resources

About

High-Quality Cs₃Cu₂I₅@PMMA Scintillator Films Assisted by Multiprocessing for X-ray Imaging

Transparent and Planar Cs₃Cu₂Cl₅ Crystals for Micrometer-Resolution X-ray Imaging Screen